####################################################################### # # # | | ==== === ==== ==== | | | | # # | | | | | | / | | | | # # |====| |=== === |=== / |====| ------- ------- # # | | | | \ | / | | | | # # | | ==== | \ ==== ==== | | | | # # # ####################################################################### # Herezh++ is distributed under GPL 3 license ou ultérieure. # # Copyright (C) 1997-2025 Université Bretagne Sud (France) # # AUTHOR : Gérard Rio # # E-MAIL : gerardrio56@free.fr # # Certification IDDN.FR.010.0106078.000.R.P.2006.035.20600 # # # ####################################################################### # date: Tue Feb 24 16:53:17 2026 # (version la plus rapide ) version 7.061 -- initialisation de l'entree des donnees racine du nom de fichier principal = calcul ======== fin de la lecture, Projet::Lecture( ...=========== -- renumerotation des pointeurs d'assemblage en tenant compte des CLL calcul du demarrage infructeux de l'algorithme de Gibbs (voisins, descendance etc.) on conserve l'ancienne renumerotation >>>> Information maillages : il y a 12 noeuds esclaves possible sur front. du maillage 1 >>>> Information : Initialisation du contact: --> nombre de zone de contact: 1 maillage esclave 1 : zone de contact: 1 => 7 noeuds esclaves pour contact zone de contact: 1 => 10 frontieres prises en compte pour le contact ajout angle mort pour contact: mail. maitre 2 : zone de contact: 1 : 1 frontieres point ====================================================================== INCREMENT DE CHARGE : 1 intensite 1 t= 1 dt= 1 ====================================================================== -- renumerotation en tenant compte des elements de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 34 larg. totale ==> 67 >>>> temps fin (1) atteint <<<<< 1 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 1 intensite 1 t= 1 dt= 1 ============================================================================ ======== lecture du fichier de commande de visualisation ======== ======== fin de la lecture du fichier de commande de visualisation ======== >>>> temps fin (1) atteint <<<<< 1 relecture de certains(s) parametre(s) de controle ======== lecture secondaire terminee ======== ====================================================================== INCREMENT DE CHARGE : 2 intensite 1 t= 1.001 dt= 0.001 ====================================================================== -- renumerotation en tenant compte des elements de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 34 larg. totale ==> 67 contact: reaction ==> F_N => [-1549.26 : 0], F_T max = 0, [-0.000299737 <= gap_N <= 0], [0 <= gap_T <= 0] ITERATION : 1 (assemblage 1) reaction maxi : 1547.65824949, du ddl X2, du noeud/maillage 12/2 max puissance exterieure = 1549.25940325 max puissance interieurs = 0.00019446 max des reactions = 1547.65824949 max du residu total = 1549.25940325 **** Norme Residu/Reaction --> 1.00103457 (assemblage 1) delta maxi: 0.00029973, ddl X2, noeud/mail 2/1 , var total:-0.00039974, sur:0.49970026 autres ddl R_X2 1549.25940325 var 1549.25940325; contact: reaction ==> F_N => [-0.04305970 : 0.00000000], F_T max = 0.00000000, [-0.00000002 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 0.08557936, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.04305970 max puissance interieurs = 0.08557936 max des reactions = 0.08557936 max du residu total = 0.04251703 **** Norme Residu/Reaction --> 0.49681408 (assemblage 1) delta maxi: -0.00000002, ddl X2, noeud/mail 6/1 , var total:-0.00010002, sur:0.49999998 autres ddl R_X2 0.04305970 var 0.04305970; contact: reaction ==> F_N => [-0.08612179 : 0.00000000], F_T max = 0.00000000, [-0.00000003 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 0.08557179, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.08612179 max puissance interieurs = 0.08557179 max des reactions = 0.08557179 max du residu total = 0.00055551 **** Norme Residu/Reaction --> 0.00649171 (assemblage 1) delta maxi: 0.00000000, ddl X2, noeud/mail 6/1 , var total:-0.00010003, sur:0.49999997 autres ddl R_X2 0.08612179 var 0.08612179; contact: reaction ==> F_N => [-0.08555921 : 0.00000000], F_T max = 0.00000000, [-0.00000003 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 0.08557183, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.08555921 max puissance interieurs = 0.08557183 max des reactions = 0.08557183 max du residu total = 0.00000716 **** Norme Residu/Reaction --> 0.00008373 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 3 intensite 1.00000000 t= 1.00200000 dt= 0.00100000 ====================================================================== contact: reaction ==> F_N => [-0.10140764 : 0.00000000], F_T max = 0.00000000, [-0.00000004 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 0.19973753, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.10140764 max puissance interieurs = 0.19973753 max des reactions = 0.19973753 max du residu total = 0.09832339 **** Norme Residu/Reaction --> 0.49226298 (assemblage 1) delta maxi: -0.00000004, ddl X2, noeud/mail 6/1 , var total:-0.00010004, sur:0.49999996 autres ddl R_X2 0.10140764 var 0.01584843; contact: reaction ==> F_N => [-0.20266158 : 0.00000000], F_T max = 0.00000000, [-0.00000008 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 0.19972882, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.20266158 max puissance interieurs = 0.19972882 max des reactions = 0.19972882 max du residu total = 0.00294545 **** Norme Residu/Reaction --> 0.01474726 (assemblage 1) delta maxi: 0.00000000, ddl X2, noeud/mail 6/1 , var total:-0.00010008, sur:0.49999992 autres ddl R_X2 0.20266158 var 0.11710237; contact: reaction ==> F_N => [-0.19963095 : 0.00000000], F_T max = 0.00000000, [-0.00000007 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 0.19972902, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.19963095 max puissance interieurs = 0.19972902 max des reactions = 0.19972902 max du residu total = 0.00008566 **** Norme Residu/Reaction --> 0.00042887 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 4 intensite 1.00000000 t= 1.00300000 dt= 0.00100000 ====================================================================== contact: reaction ==> F_N => [-0.31378430 : 0.00000000], F_T max = 0.00000000, [-0.00000012 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 0.31395644, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.31378430 max puissance interieurs = 0.31395644 max des reactions = 0.31395644 max du residu total = 0.00015309 **** Norme Residu/Reaction --> 0.00048763 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 5 intensite 1.00000000 t= 1.00400000 dt= 0.00100000 ====================================================================== contact: reaction ==> F_N => [-0.42804309 : 0.00000000], F_T max = 0.00000000, [-0.00000016 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 0.42825413, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.42804309 max puissance interieurs = 0.42825413 max des reactions = 0.42825413 max du residu total = 0.00018563 **** Norme Residu/Reaction --> 0.00043345 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 6 intensite 1.00000000 t= 1.00500000 dt= 0.00100000 ====================================================================== contact: reaction ==> F_N => [-0.54237707 : 0.00000000], F_T max = 0.00000000, [-0.00000019 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 0.54262214, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.54237707 max puissance interieurs = 0.54262214 max des reactions = 0.54262214 max du residu total = 0.00021355 **** Norme Residu/Reaction --> 0.00039356 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 7 intensite 1.00000000 t= 1.00600000 dt= 0.00100000 ====================================================================== contact: reaction ==> F_N => [-0.65678986 : 0.00000000], F_T max = 0.00000000, [-0.00000023 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 0.65706052, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.65678986 max puissance interieurs = 0.65706052 max des reactions = 0.65706052 max du residu total = 0.00023326 **** Norme Residu/Reaction --> 0.00035501 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 8 intensite 1.00000000 t= 1.00741421 dt= 0.00141421 ====================================================================== contact: reaction ==> F_N => [-0.81851392 : 0.00000000], F_T max = 0.00000000, [-0.00000028 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 0.81902106, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.81851392 max puissance interieurs = 0.81902106 max des reactions = 0.81902106 max du residu total = 0.00046180 **** Norme Residu/Reaction --> 0.00056384 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 9 intensite 1.00000000 t= 1.00882843 dt= 0.00141421 ====================================================================== contact: reaction ==> F_N => [-0.98053615 : 0.00000000], F_T max = 0.00000000, [-0.00000033 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 0.98112258, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 0.98053615 max puissance interieurs = 0.98112258 max des reactions = 0.98112258 max du residu total = 0.00053348 **** Norme Residu/Reaction --> 0.00054375 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 10 intensite 1.00000000 t= 1.01024264 dt= 0.00141421 ====================================================================== contact: reaction ==> F_N => [-1.14274465 : 0.00000000], F_T max = 0.00000000, [-0.00000038 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 1.14336523, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 1.14274465 max puissance interieurs = 1.14336523 max des reactions = 1.14336523 max du residu total = 0.00056035 **** Norme Residu/Reaction --> 0.00049008 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 11 intensite 1.00000000 t= 1.01165685 dt= 0.00141421 ====================================================================== contact: reaction ==> F_N => [-1.30511184 : 0.00000000], F_T max = 0.00000000, [-0.00000043 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 1.30574918, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 1.30511184 max puissance interieurs = 1.30574918 max des reactions = 1.30574918 max du residu total = 0.00057009 **** Norme Residu/Reaction --> 0.00043660 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 12 intensite 1.00000000 t= 1.01365685 dt= 0.00200000 ====================================================================== contact: reaction ==> F_N => [-1.53449257 : 0.00000000], F_T max = 0.00000000, [-0.00000050 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 1.53563629, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 1.53449257 max puissance interieurs = 1.53563629 max des reactions = 1.53563629 max du residu total = 0.00106701 **** Norme Residu/Reaction --> 0.00069483 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 13 intensite 1.00000000 t= 1.01565685 dt= 0.00200000 ====================================================================== contact: reaction ==> F_N => [-1.76462977 : 0.00000000], F_T max = 0.00000000, [-0.00000056 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 1.76580675, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 1.76462977 max puissance interieurs = 1.76580675 max des reactions = 1.76580675 max du residu total = 0.00109120 **** Norme Residu/Reaction --> 0.00061796 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 14 intensite 1.00000000 t= 1.01765685 dt= 0.00200000 ====================================================================== contact: reaction ==> F_N => [-1.99502914 : 0.00000000], F_T max = 0.00000000, [-0.00000062 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 1.99626105, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 1.99502914 max puissance interieurs = 1.99626105 max des reactions = 1.99626105 max du residu total = 0.00113742 **** Norme Residu/Reaction --> 0.00056978 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 15 intensite 1.00000000 t= 1.01965685 dt= 0.00200000 ====================================================================== contact: reaction ==> F_N => [-2.22582011 : 0.00000000], F_T max = 0.00000000, [-0.00000068 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 2.22699966, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 2.22582011 max puissance interieurs = 2.22699966 max des reactions = 2.22699966 max du residu total = 0.00107666 **** Norme Residu/Reaction --> 0.00048346 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 16 intensite 1.00000000 t= 1.02248528 dt= 0.00282843 ====================================================================== contact: reaction ==> F_N => [-2.55169168 : 0.00000000], F_T max = 0.00000000, [-0.00000076 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 2.55379967, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 2.55169168 max puissance interieurs = 2.55379967 max des reactions = 2.55379967 max du residu total = 0.00199374 **** Norme Residu/Reaction --> 0.00078070 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 17 intensite 1.00000000 t= 1.02531371 dt= 0.00282843 ====================================================================== contact: reaction ==> F_N => [-2.87924445 : 0.00000000], F_T max = 0.00000000, [-0.00000084 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 2.88117060, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 2.87924445 max puissance interieurs = 2.88117060 max des reactions = 2.88117060 max du residu total = 0.00180092 **** Norme Residu/Reaction --> 0.00062507 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 18 intensite 1.00000000 t= 1.02814214 dt= 0.00282843 ====================================================================== contact: reaction ==> F_N => [-3.20703652 : 0.00000000], F_T max = 0.00000000, [-0.00000092 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 3.20911394, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 3.20703652 max puissance interieurs = 3.20911394 max des reactions = 3.20911394 max du residu total = 0.00194160 **** Norme Residu/Reaction --> 0.00060503 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 19 intensite 1.00000000 t= 1.03097056 dt= 0.00282843 ====================================================================== contact: reaction ==> F_N => [-3.53583676 : 0.00000000], F_T max = 0.00000000, [-0.00000099 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 3.53763105, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 3.53583676 max puissance interieurs = 3.53763105 max des reactions = 3.53763105 max du residu total = 0.00164817 **** Norme Residu/Reaction --> 0.00046590 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 20 intensite 1.00000000 t= 1.03497056 dt= 0.00400000 ====================================================================== contact: reaction ==> F_N => [-3.99991796 : 0.00000000], F_T max = 0.00000000, [-0.00000110 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 4.00320681, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 3.99991796 max puissance interieurs = 4.00320681 max des reactions = 4.00320681 max du residu total = 0.00312869 **** Norme Residu/Reaction --> 0.00078155 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 21 intensite 1.00000000 t= 1.03897056 dt= 0.00400000 ====================================================================== contact: reaction ==> F_N => [-4.46735441 : 0.00000000], F_T max = 0.00000000, [-0.00000120 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 4.46993700, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 4.46735441 max puissance interieurs = 4.46993700 max des reactions = 4.46993700 max du residu total = 0.00240867 **** Norme Residu/Reaction --> 0.00053886 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 22 intensite 1.00000000 t= 1.04297056 dt= 0.00400000 ====================================================================== contact: reaction ==> F_N => [-4.93485086 : 0.00000000], F_T max = 0.00000000, [-0.00000129 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 4.93782590, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 4.93485086 max puissance interieurs = 4.93782590 max des reactions = 4.93782590 max du residu total = 0.00278774 **** Norme Residu/Reaction --> 0.00056457 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 23 intensite 1.00000000 t= 1.04697056 dt= 0.00400000 ====================================================================== contact: reaction ==> F_N => [-5.40470741 : 0.00000000], F_T max = 0.00000000, [-0.00000139 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 5.40687755, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 5.40470741 max puissance interieurs = 5.40687755 max des reactions = 5.40687755 max du residu total = 0.00196962 **** Norme Residu/Reaction --> 0.00036428 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 24 intensite 1.00000000 t= 1.05262742 dt= 0.00565685 ====================================================================== contact: reaction ==> F_N => [-6.06800868 : 0.00000000], F_T max = 0.00000000, [-0.00000152 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 6.07221004, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 6.06800868 max puissance interieurs = 6.07221004 max des reactions = 6.07221004 max du residu total = 0.00398257 **** Norme Residu/Reaction --> 0.00065587 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 25 intensite 1.00000000 t= 1.05828427 dt= 0.00565685 ====================================================================== contact: reaction ==> F_N => [-6.73725072 : 0.00000000], F_T max = 0.00000000, [-0.00000165 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 6.73988828, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 6.73725072 max puissance interieurs = 6.73988828 max des reactions = 6.73988828 max du residu total = 0.00240055 **** Norme Residu/Reaction --> 0.00035617 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 26 intensite 1.00000000 t= 1.06394113 dt= 0.00565685 ====================================================================== contact: reaction ==> F_N => [-7.40659589 : 0.00000000], F_T max = 0.00000000, [-0.00000178 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 7.40992452, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 7.40659589 max puissance interieurs = 7.40992452 max des reactions = 7.40992452 max du residu total = 0.00307362 **** Norme Residu/Reaction --> 0.00041480 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 27 intensite 1.00000000 t= 1.06959798 dt= 0.00565685 ====================================================================== ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 28 intensite 1.00000000 t= 1.07759798 dt= 0.00800000 ====================================================================== -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-9.02889971 : 0.00000000], F_T max = 0.00000000, [-0.00000208 <= gap_N <= 0.01868124], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 9.03732674, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 9.02889971 max puissance interieurs = 9.03732674 max des reactions = 9.03732674 max du residu total = 0.00880226 **** Norme Residu/Reaction --> 0.00097399 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 29 intensite 1.00000000 t= 1.08559798 dt= 0.00800000 ====================================================================== contact: reaction ==> F_N => [-9.99996055 : 0.00000000], F_T max = 0.00000000, [-0.00000225 <= gap_N <= 0.01750006], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 9.99712113, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 9.99996055 max puissance interieurs = 9.99712113 max des reactions = 9.99712113 max du residu total = 0.00330186 **** Norme Residu/Reaction --> 0.00033028 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 30 intensite 1.00000000 t= 1.09359798 dt= 0.00800000 ====================================================================== contact: reaction ==> F_N => [-10.95638704 : 0.00000000], F_T max = 0.00000000, [-0.00000242 <= gap_N <= 0.01631691], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 10.96175117, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 10.95638704 max puissance interieurs = 10.96175117 max des reactions = 10.96175117 max du residu total = 0.00718460 **** Norme Residu/Reaction --> 0.00065542 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 31 intensite 1.00000000 t= 1.10159798 dt= 0.00800000 ====================================================================== ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 32 intensite 1.00000000 t= 1.11291169 dt= 0.01131371 ====================================================================== contact: reaction ==> F_N => [-13.31451413 : 0.00000000], F_T max = 0.00000000, [-0.00000284 <= gap_N <= 0.01345245], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 13.31071330, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 13.31451413 max puissance interieurs = 13.31071330 max des reactions = 13.31071330 max du residu total = 0.00421729 **** Norme Residu/Reaction --> 0.00031683 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 33 intensite 1.00000000 t= 1.12422540 dt= 0.01131371 ====================================================================== contact: reaction ==> F_N => [-14.69720483 : 0.00000000], F_T max = 0.00000000, [-0.00000308 <= gap_N <= 0.01176917], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 14.70009117, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 14.69720483 max puissance interieurs = 14.70009117 max des reactions = 14.70009117 max du residu total = 0.00523725 **** Norme Residu/Reaction --> 0.00035627 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 34 intensite 1.00000000 t= 1.13553911 dt= 0.01131371 ====================================================================== contact: reaction ==> F_N => [-16.10253624 : 0.00000000], F_T max = 0.00000000, [-0.00000333 <= gap_N <= 0.01008195], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 16.09948689, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 16.10253624 max puissance interieurs = 16.09948689 max des reactions = 16.09948689 max du residu total = 0.00354708 **** Norme Residu/Reaction --> 0.00022032 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 35 intensite 1.00000000 t= 1.14685281 dt= 0.01131371 ====================================================================== ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 36 intensite 1.00000000 t= 1.16285281 dt= 0.01600000 ====================================================================== contact: reaction ==> F_N => [-19.52549146 : 0.00000000], F_T max = 0.00000000, [-0.00000394 <= gap_N <= 0.00599248], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 19.51985907, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 19.52549146 max puissance interieurs = 19.51985907 max des reactions = 19.51985907 max du residu total = 0.00786170 **** Norme Residu/Reaction --> 0.00040275 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 37 intensite 1.00000000 t= 1.17885281 dt= 0.01600000 ====================================================================== contact: reaction ==> F_N => [-27.02374725 : 0.00000000], F_T max = 0.00000000, [-0.00000530 <= gap_N <= 0.02759108], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 17.79991549, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 27.02374725 max puissance interieurs = 26.15488172 max des reactions = 17.79991549 max du residu total = 0.86886552 **** Norme Residu/Reaction --> 0.04881290 (assemblage 1) delta maxi: -0.00042750, ddl X1, noeud/mail 7/1 , var total:0.02368299, sur:1.99368299 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-26.60893172 : 0.00000000], F_T max = 0.00000000, [-0.00000523 <= gap_N <= 0.02770475], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 17.52668612, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 26.60893172 max puissance interieurs = 26.63274049 max des reactions = 17.52668612 max du residu total = 0.02464397 **** Norme Residu/Reaction --> 0.00140608 (assemblage 1) delta maxi: 0.00000082, ddl X2, noeud/mail 2/1 , var total:-0.04735894, sur:0.45274106 autres ddl R_X2 0.00000000 var -13.00955705; contact: reaction ==> F_N => [-26.63433338 : 0.00000000], F_T max = 0.00000000, [-0.00000523 <= gap_N <= 0.02770442], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 17.54341760, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 26.63433338 max puissance interieurs = 26.63283103 max des reactions = 17.54341760 max du residu total = 0.00616362 **** Norme Residu/Reaction --> 0.00035133 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 38 intensite 1.00000000 t= 1.19485281 dt= 0.01600000 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 23 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-2842.12775372 : 0.00000000], F_T max = 0.00000000, [-0.00054987 <= gap_N <= 0.00050639], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 1507.71340537, du ddl X1, du noeud/maillage 24/2 max puissance exterieure = 2842.12775372 max puissance interieurs = 23.52776495 max des reactions = 1507.71340537 max du residu total = 2845.12518332 **** Norme Residu/Reaction --> 1.88704642 (assemblage 1) delta maxi: 0.00161139, ddl X1, noeud/mail 6/1 , var total:0.01807422, sur:1.33140756 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-23.34845231 : 0.52952852], F_T max = 0.00000000, [-0.00000463 <= gap_N <= 0.00128445], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 23.37094775, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 23.34845231 max puissance interieurs = 23.37094775 max des reactions = 23.37094775 max du residu total = 0.63668103 **** Norme Residu/Reaction --> 0.02724241 (assemblage 1) delta maxi: 0.00000287, ddl X1, noeud/mail 2/1 , var total:0.02909369, sur:1.99909369 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-23.30207744 : 1.02943328], F_T max = 0.00000000, [-0.00000462 <= gap_N <= 0.00128530], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 23.37049017, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 23.30207744 max puissance interieurs = 23.37049017 max des reactions = 23.37049017 max du residu total = 0.13525411 **** Norme Residu/Reaction --> 0.00578739 (assemblage 1) delta maxi: -0.00000007, ddl X1, noeud/mail 7/1 , var total:0.02999950, sur:1.99999950 autres ddl R_X1 1.02943328 var 1.02943328; contact: reaction ==> F_N => [-23.30623399 : 1.12860179], F_T max = 0.00000000, [-0.00000462 <= gap_N <= 0.00128529], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 23.37050200, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 23.30623399 max puissance interieurs = 23.37050200 max des reactions = 23.37050200 max du residu total = 0.03602161 **** Norme Residu/Reaction --> 0.00154133 (assemblage 1) delta maxi: -0.00000002, ddl X1, noeud/mail 7/1 , var total:0.02999944, sur:1.99999944 autres ddl R_X1 1.12860179 var 1.12860179; contact: reaction ==> F_N => [-23.30586685 : 1.15446270], F_T max = 0.00000000, [-0.00000462 <= gap_N <= 0.00128529], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 23.37050575, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 23.30586685 max puissance interieurs = 23.37050575 max des reactions = 23.37050575 max du residu total = 0.01014285 **** Norme Residu/Reaction --> 0.00043400 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 39 intensite 1.00000000 t= 1.21085281 dt= 0.01600000 ====================================================================== contact: reaction ==> F_N => [-32.01379296 : 1.77218777], F_T max = 0.00000000, [-0.00000624 <= gap_N <= 0.00000185], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 21.32257558, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 32.01379296 max puissance interieurs = 30.21935038 max des reactions = 21.32257558 max du residu total = 7.68806015 **** Norme Residu/Reaction --> 0.36055964 (assemblage 1) delta maxi: -0.00154862, ddl X2, noeud/mail 2/1 , var total:-0.03933562, sur:0.46076438 autres ddl R_X2 0.00000000 var -15.66668423; contact: reaction ==> F_N => [-30.82770649 : 0.54452348], F_T max = 0.00000000, [-0.00000601 <= gap_N <= 0.00000962], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 20.53259051, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 30.82770649 max puissance interieurs = 30.86931073 max des reactions = 20.53259051 max du residu total = 9.16760239 **** Norme Residu/Reaction --> 0.44649029 (assemblage 1) delta maxi: -0.00339576, ddl X1, noeud/mail 2/1 , var total:0.02999038, sur:1.99999038 autres ddl R_X1 0.02263182 var 0.02263182; contact: reaction ==> F_N => [-30.90647614 : 0.51605528], F_T max = 0.00000000, [-0.00000603 <= gap_N <= 0.00340538], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 20.58505452, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 30.90647614 max puissance interieurs = 30.89822650 max des reactions = 20.58505452 max du residu total = 8.01703021 **** Norme Residu/Reaction --> 0.38945878 (assemblage 1) delta maxi: -0.02318870, ddl X1, noeud/mail 2/1 , var total:0.02659462, sur:1.99659462 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-31.11116595 : 1.57494990], F_T max = 0.00000000, [-0.00000607 <= gap_N <= 0.02659407], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 20.72138681, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 31.11116595 max puissance interieurs = 30.86393121 max des reactions = 20.72138681 max du residu total = 1.09767183 **** Norme Residu/Reaction --> 0.05297289 (assemblage 1) delta maxi: -0.00027161, ddl X1, noeud/mail 2/1 , var total:0.00340593, sur:1.97340593 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-30.98711758 : 1.79909308], F_T max = 0.00000000, [-0.00000604 <= gap_N <= 0.02686568], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 20.63876521, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 30.98711758 max puissance interieurs = 30.99153073 max des reactions = 20.63876521 max du residu total = 0.79874481 **** Norme Residu/Reaction --> 0.03870119 (assemblage 1) delta maxi: -0.00000070, ddl X1, noeud/mail 7/1 , var total:0.02999841, sur:1.99999841 autres ddl R_X1 1.79909308 var 0.64463038; contact: reaction ==> F_N => [-30.99194904 : 1.63202598], F_T max = 0.00000000, [-0.00000604 <= gap_N <= 0.02686619], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 6 (assemblage 1) reaction maxi : 20.64198317, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 30.99194904 max puissance interieurs = 30.99177156 max des reactions = 20.64198317 max du residu total = 0.96511953 **** Norme Residu/Reaction --> 0.04675517 (assemblage 1) delta maxi: -0.00000135, ddl X1, noeud/mail 7/1 , var total:0.02999771, sur:1.99999771 autres ddl R_X1 1.63202598 var 0.47756328; contact: reaction ==> F_N => [-30.99214227 : 0.96650591], F_T max = 0.00000000, [-0.00000604 <= gap_N <= 0.02686666], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 7 (assemblage 1) reaction maxi : 20.64211187, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 30.99214227 max puissance interieurs = 30.99213517 max des reactions = 20.64211187 max du residu total = 1.62930234 **** Norme Residu/Reaction --> 0.07893099 (assemblage 1) delta maxi: -0.00000613, ddl X1, noeud/mail 7/1 , var total:0.02999635, sur:1.99999635 autres ddl R_X1 0.96650591 var -0.18795678; contact: reaction ==> F_N => [-30.99384199 : 0.04672837], F_T max = 0.00000000, [-0.00000604 <= gap_N <= 0.02686881], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 8 (assemblage 1) reaction maxi : 20.64324396, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 30.99384199 max puissance interieurs = 30.99377957 max des reactions = 20.64324396 max du residu total = 2.56946240 **** Norme Residu/Reaction --> 0.12446989 (assemblage 1) delta maxi: -0.00083860, ddl X1, noeud/mail 7/1 , var total:0.02999023, sur:1.99999023 autres ddl R_X1 0.02029660 var -1.13416610; contact: reaction ==> F_N => [-31.22736329 : 0.00735758], F_T max = 0.00000000, [-0.00000609 <= gap_N <= 0.02716298], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 9 (assemblage 1) reaction maxi : 20.79877929, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 31.22736329 max puissance interieurs = 31.21878610 max des reactions = 20.79877929 max du residu total = 1.76171156 **** Norme Residu/Reaction --> 0.08470264 (assemblage 1) delta maxi: -0.00178435, ddl X1, noeud/mail 7/1 , var total:0.02915163, sur:1.99915163 autres ddl R_X1 0.00000000 var -1.15446270; contact: reaction ==> F_N => [-31.71428996 : 0.00000000], F_T max = 0.00000000, [-0.00000618 <= gap_N <= 0.02778922], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 10 (assemblage 1) reaction maxi : 21.12309358, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 31.71428996 max puissance interieurs = 31.69684150 max des reactions = 21.12309358 max du residu total = 0.01916795 **** Norme Residu/Reaction --> 0.00090744 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 40 intensite 1.00000000 t= 1.22386094 dt= 0.01300813 ====================================================================== contact: reaction ==> F_N => [-27682.31947669 : 0.00000000], F_T max = 0.00000000, [-0.00535574 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 15274.78252125, du ddl X1, du noeud/maillage 24/2 max puissance exterieure = 27682.31947669 max puissance interieurs = 28.12101261 max des reactions = 15274.78252125 max du residu total = 27685.91596718 **** Norme Residu/Reaction --> 1.81252440 (assemblage 1) delta maxi: -0.00535510, ddl X1, noeud/mail 7/1 , var total:0.03535574, sur:2.00535574 autres ddl R_X1 -27682.31947669 var -27682.31947669; contact: reaction ==> F_N => [-29.09847508 : 0.00000000], F_T max = 0.00000000, [-0.00000569 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 28.64890950, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 29.09847508 max puissance interieurs = 29.02895672 max des reactions = 28.64890950 max du residu total = 1.23245918 **** Norme Residu/Reaction --> 0.04301941 (assemblage 1) delta maxi: -0.00000847, ddl X2, noeud/mail 8/1 , var total:-0.05969139, sur:1.70707528 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-29.03550806 : 0.00000000], F_T max = 0.00000000, [-0.00000568 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 28.64462086, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 29.03550806 max puissance interieurs = 29.03837209 max des reactions = 28.64462086 max du residu total = 0.35878174 **** Norme Residu/Reaction --> 0.01252527 (assemblage 1) delta maxi: -0.00000010, ddl X1, noeud/mail 7/1 , var total:0.03000101, sur:2.00000101 autres ddl R_X1 -3.63055775 var -3.63055775; contact: reaction ==> F_N => [-29.03853496 : 0.00000000], F_T max = 0.00000000, [-0.00000568 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 28.64463787, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 29.03853496 max puissance interieurs = 29.03839668 max des reactions = 28.64463787 max du residu total = 0.08190112 **** Norme Residu/Reaction --> 0.00285921 (assemblage 1) delta maxi: 0.00000002, ddl X1, noeud/mail 7/1 , var total:0.03000091, sur:2.00000091 autres ddl R_X1 -3.18997391 var -3.18997391; contact: reaction ==> F_N => [-29.03838396 : 0.00000000], F_T max = 0.00000000, [-0.00000568 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 28.64463381, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 29.03838396 max puissance interieurs = 29.03839086 max des reactions = 28.64463381 max du residu total = 0.01988877 **** Norme Residu/Reaction --> 0.00069433 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 41 intensite 1.00000000 t= 1.23686907 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 contact: reaction ==> F_N => [-37.72881116 : 1.75721666], F_T max = 0.00000000, [-0.00000732 <= gap_N <= 0.00000192], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 25.25264743, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 37.72881116 max puissance interieurs = 35.86058066 max des reactions = 25.25264743 max du residu total = 8.60276123 **** Norme Residu/Reaction --> 0.34066770 (assemblage 1) delta maxi: 0.00147996, ddl X1, noeud/mail 6/1 , var total:0.01589577, sur:1.32922911 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-37.00091433 : 0.00000000], F_T max = 0.00000000, [-0.00000718 <= gap_N <= 0.00001027], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 24.76545153, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 37.00091433 max puissance interieurs = 37.01445387 max des reactions = 24.76545153 max du residu total = 9.39264344 **** Norme Residu/Reaction --> 0.37926397 (assemblage 1) delta maxi: -0.02750389, ddl X1, noeud/mail 2/1 , var total:0.02998973, sur:1.99998973 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-37.21267029 : 0.00000000], F_T max = 0.00000000, [-0.00000722 <= gap_N <= 0.02751417], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 24.90718403, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 37.21267029 max puissance interieurs = 36.87346021 max des reactions = 24.90718403 max du residu total = 0.33921008 **** Norme Residu/Reaction --> 0.01361897 (assemblage 1) delta maxi: -0.00038008, ddl X1, noeud/mail 2/1 , var total:0.00248583, sur:1.97248583 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-37.04849007 : 0.00000000], F_T max = 0.00000000, [-0.00000719 <= gap_N <= 0.02789424], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 24.79729492, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 37.04849007 max puissance interieurs = 37.05118725 max des reactions = 24.79729492 max du residu total = 0.05400493 **** Norme Residu/Reaction --> 0.00217786 (assemblage 1) delta maxi: -0.00000052, ddl X1, noeud/mail 2/1 , var total:0.00210576, sur:1.97210576 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-37.05133596 : 0.00000000], F_T max = 0.00000000, [-0.00000719 <= gap_N <= 0.02789477], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 24.79919974, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 37.05133596 max puissance interieurs = 37.05128508 max des reactions = 24.79919974 max du residu total = 0.01373470 **** Norme Residu/Reaction --> 0.00055384 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 42 intensite 1.00000000 t= 1.24987720 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 22 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-40.09850814 : 0.00000000], F_T max = 0.00000000, [-0.00000777 <= gap_N <= 0.02928791], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 25.49461869, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 40.09850814 max puissance interieurs = 39.65396523 max des reactions = 25.49461869 max du residu total = 4.21256998 **** Norme Residu/Reaction --> 0.16523369 (assemblage 1) delta maxi: 0.00129860, ddl X1, noeud/mail 6/1 , var total:0.00267701, sur:1.31601034 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-40.09150524 : 0.00000000], F_T max = 0.00000000, [-0.00000777 <= gap_N <= 0.02848717], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 25.49016625, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 40.09150524 max puissance interieurs = 40.09190346 max des reactions = 25.49016625 max du residu total = 0.45798613 **** Norme Residu/Reaction --> 0.01796717 (assemblage 1) delta maxi: 0.00000504, ddl X2, noeud/mail 2/1 , var total:-0.06838279, sur:0.43171721 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-40.09204971 : 0.00000000], F_T max = 0.00000000, [-0.00000777 <= gap_N <= 0.02848305], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 25.49051242, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 40.09204971 max puissance interieurs = 40.09204305 max des reactions = 25.49051242 max du residu total = 0.10367216 **** Norme Residu/Reaction --> 0.00406709 (assemblage 1) delta maxi: -0.00000003, ddl X1, noeud/mail 7/1 , var total:0.03000075, sur:2.00000075 autres ddl R_X1 -2.51612351 var -1.75682263; contact: reaction ==> F_N => [-40.09205373 : 0.00000000], F_T max = 0.00000000, [-0.00000777 <= gap_N <= 0.02848306], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 25.49051498, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 40.09205373 max puissance interieurs = 40.09205368 max des reactions = 25.49051498 max du residu total = 0.02125949 **** Norme Residu/Reaction --> 0.00083402 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 42 intensite 1.00000000 t= 1.24987720 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-34.55778444 : 0.00000000], F_T max = 0.00000000, [-0.00000672 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 33.89338414, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 34.55778444 max puissance interieurs = 33.89338414 max des reactions = 33.89338414 max du residu total = 4.89744518 **** Norme Residu/Reaction --> 0.14449561 (assemblage 1) delta maxi: 0.00103188, ddl X1, noeud/mail 6/1 , var total:0.02189916, sur:1.33523249 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-34.50996599 : 0.00000000], F_T max = 0.00000000, [-0.00000671 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 33.62433447, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 34.50996599 max puissance interieurs = 34.51144301 max des reactions = 33.62433447 max du residu total = 0.80586955 **** Norme Residu/Reaction --> 0.02396685 (assemblage 1) delta maxi: 0.00000078, ddl X1, noeud/mail 2/1 , var total:0.03665274, sur:2.00665274 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-34.51171656 : 0.00000000], F_T max = 0.00000000, [-0.00000671 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 33.62403165, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 34.51171656 max puissance interieurs = 34.51167395 max des reactions = 33.62403165 max du residu total = 0.24117626 **** Norme Residu/Reaction --> 0.00717273 (assemblage 1) delta maxi: -0.00000006, ddl X1, noeud/mail 7/1 , var total:0.03000179, sur:2.00000179 autres ddl R_X1 -7.47092111 var -6.71162023; contact: reaction ==> F_N => [-34.51169137 : 0.00000000], F_T max = 0.00000000, [-0.00000671 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 33.62404608, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 34.51169137 max puissance interieurs = 34.51169199 max des reactions = 33.62404608 max du residu total = 0.06533147 **** Norme Residu/Reaction --> 0.00194300 (assemblage 1) delta maxi: 0.00000002, ddl X1, noeud/mail 7/1 , var total:0.03000173, sur:2.00000173 autres ddl R_X1 -7.16447023 var -6.40516934; contact: reaction ==> F_N => [-34.51168697 : 0.00000000], F_T max = 0.00000000, [-0.00000671 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 33.62404209, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 34.51168697 max puissance interieurs = 34.51168708 max des reactions = 33.62404209 max du residu total = 0.01820546 **** Norme Residu/Reaction --> 0.00054144 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 43 intensite 1.00000000 t= 1.26288533 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 23 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 contact: reaction ==> F_N => [-43.79138328 : 1.73967032], F_T max = 0.00000000, [-0.00000848 <= gap_N <= 0.00000199], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 29.45101196, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 43.79138328 max puissance interieurs = 41.43166258 max des reactions = 29.45101196 max du residu total = 9.55662368 **** Norme Residu/Reaction --> 0.32449220 (assemblage 1) delta maxi: 0.00215058, ddl X1, noeud/mail 6/1 , var total:0.01455359, sur:1.32788693 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-43.18965588 : 0.00000000], F_T max = 0.00000000, [-0.00000837 <= gap_N <= 0.00001104], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 29.04633233, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 43.18965588 max puissance interieurs = 43.19563408 max des reactions = 29.04633233 max du residu total = 9.65191102 **** Norme Residu/Reaction --> 0.33229362 (assemblage 1) delta maxi: -0.02869977, ddl X1, noeud/mail 2/1 , var total:0.02998896, sur:1.99998896 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-43.31156082 : 0.00000000], F_T max = 0.00000000, [-0.00000839 <= gap_N <= 0.02871081], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 29.12831704, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 43.31156082 max puissance interieurs = 42.94782625 max des reactions = 29.12831704 max du residu total = 0.36373457 **** Norme Residu/Reaction --> 0.01248732 (assemblage 1) delta maxi: -0.00041051, ddl X1, noeud/mail 2/1 , var total:0.00128919, sur:1.97128919 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-43.13847889 : 0.00000000], F_T max = 0.00000000, [-0.00000836 <= gap_N <= 0.02912132], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 29.01191427, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 43.13847889 max puissance interieurs = 43.13965617 max des reactions = 29.01191427 max du residu total = 0.12828561 **** Norme Residu/Reaction --> 0.00442182 (assemblage 1) delta maxi: -0.00000063, ddl X1, noeud/mail 2/1 , var total:0.00087868, sur:1.97087868 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-43.13978587 : 0.00000000], F_T max = 0.00000000, [-0.00000836 <= gap_N <= 0.02912195], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 29.01279326, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 43.13978587 max puissance interieurs = 43.13977506 max des reactions = 29.01279326 max du residu total = 0.03262099 **** Norme Residu/Reaction --> 0.00112437 (assemblage 1) delta maxi: 0.00000001, ddl X1, noeud/mail 7/1 , var total:0.03000110, sur:2.00000110 autres ddl R_X1 -4.01326154 var 3.23473008; contact: reaction ==> F_N => [-43.13977388 : 0.00000000], F_T max = 0.00000000, [-0.00000836 <= gap_N <= 0.02912194], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 6 (assemblage 1) reaction maxi : 29.01278520, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 43.13977388 max puissance interieurs = 43.13977398 max des reactions = 29.01278520 max du residu total = 0.00846623 **** Norme Residu/Reaction --> 0.00029181 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 44 intensite 1.00000000 t= 1.27589346 dt= 0.01300813 ====================================================================== contact: reaction ==> F_N => [-46.20041868 : 0.00000000], F_T max = 0.00000000, [-0.00000895 <= gap_N <= 0.03102274], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 29.29870978, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 46.20041868 max puissance interieurs = 45.62363137 max des reactions = 29.29870978 max du residu total = 5.03020081 **** Norme Residu/Reaction --> 0.17168677 (assemblage 1) delta maxi: 0.00182725, ddl X1, noeud/mail 6/1 , var total:0.00085284, sur:1.31418617 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-46.19328173 : 0.00000000], F_T max = 0.00000000, [-0.00000894 <= gap_N <= 0.02982041], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 29.25747875, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 46.19328173 max puissance interieurs = 46.19382195 max des reactions = 29.25747875 max du residu total = 0.76409740 **** Norme Residu/Reaction --> 0.02611631 (assemblage 1) delta maxi: 0.00000977, ddl X2, noeud/mail 2/1 , var total:-0.07709582, sur:0.42300418 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-46.19423470 : 0.00000000], F_T max = 0.00000000, [-0.00000894 <= gap_N <= 0.02981249], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 29.25808233, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 46.19423470 max puissance interieurs = 46.19422938 max des reactions = 29.25808233 max du residu total = 0.23076072 **** Norme Residu/Reaction --> 0.00788708 (assemblage 1) delta maxi: -0.00000006, ddl X1, noeud/mail 7/1 , var total:0.03000149, sur:2.00000149 autres ddl R_X1 -5.89079958 var -1.83645954; contact: reaction ==> F_N => [-46.19424735 : 0.00000000], F_T max = 0.00000000, [-0.00000894 <= gap_N <= 0.02981251], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 29.25809034, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 46.19424735 max puissance interieurs = 46.19424728 max des reactions = 29.25809034 max du residu total = 0.06228963 **** Norme Residu/Reaction --> 0.00212897 (assemblage 1) delta maxi: 0.00000002, ddl X1, noeud/mail 7/1 , var total:0.03000143, sur:2.00000143 autres ddl R_X1 -5.59780600 var -1.54346596; contact: reaction ==> F_N => [-46.19424239 : 0.00000000], F_T max = 0.00000000, [-0.00000894 <= gap_N <= 0.02981251], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 29.25808721, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 46.19424239 max puissance interieurs = 46.19424242 max des reactions = 29.25808721 max du residu total = 0.01734281 **** Norme Residu/Reaction --> 0.00059275 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 44 intensite 1.00000000 t= 1.27589346 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-40.16126803 : 0.00000000], F_T max = 0.00000000, [-0.00000779 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 38.99717313, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 40.16126803 max puissance interieurs = 39.04046055 max des reactions = 38.99717313 max du residu total = 5.04303794 **** Norme Residu/Reaction --> 0.12931804 (assemblage 1) delta maxi: 0.00135325, ddl X1, noeud/mail 6/1 , var total:0.02316188, sur:1.33649522 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-40.03579275 : 0.00000000], F_T max = 0.00000000, [-0.00000776 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 38.64502620, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 40.03579275 max puissance interieurs = 40.03790372 max des reactions = 38.64502620 max du residu total = 0.72333503 **** Norme Residu/Reaction --> 0.01871742 (assemblage 1) delta maxi: 0.00000120, ddl X1, noeud/mail 2/1 , var total:0.04027382, sur:2.01027382 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-40.03838322 : 0.00000000], F_T max = 0.00000000, [-0.00000776 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 38.64457402, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 40.03838322 max puissance interieurs = 40.03835134 max des reactions = 38.64457402 max du residu total = 0.18469769 **** Norme Residu/Reaction --> 0.00477940 (assemblage 1) delta maxi: -0.00000004, ddl X1, noeud/mail 7/1 , var total:0.03000249, sur:2.00000249 autres ddl R_X1 -11.32079705 var -7.26645701; contact: reaction ==> F_N => [-40.03836454 : 0.00000000], F_T max = 0.00000000, [-0.00000776 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 38.64458452, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 40.03836454 max puissance interieurs = 40.03836477 max des reactions = 38.64458452 max du residu total = 0.04398605 **** Norme Residu/Reaction --> 0.00113822 (assemblage 1) delta maxi: 0.00000001, ddl X1, noeud/mail 7/1 , var total:0.03000245, sur:2.00000245 autres ddl R_X1 -11.09215311 var -7.03781307; contact: reaction ==> F_N => [-40.03836146 : 0.00000000], F_T max = 0.00000000, [-0.00000776 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 38.64458196, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 40.03836146 max puissance interieurs = 40.03836150 max des reactions = 38.64458196 max du residu total = 0.01065739 **** Norme Residu/Reaction --> 0.00027578 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 45 intensite 1.00000000 t= 1.28890159 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 contact: reaction ==> F_N => [-50.09612513 : 1.71976950], F_T max = 0.00000000, [-0.00000970 <= gap_N <= 0.00000206], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 33.84988113, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 50.09612513 max puissance interieurs = 46.93487561 max des reactions = 33.84988113 max du residu total = 10.52011943 **** Norme Residu/Reaction --> 0.31078749 (assemblage 1) delta maxi: 0.00277772, ddl X1, noeud/mail 6/1 , var total:0.01318647, sur:1.32651980 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-49.40949285 : 0.00000000], F_T max = 0.00000000, [-0.00000956 <= gap_N <= 0.00001191], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 33.38592467, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 49.40949285 max puissance interieurs = 49.41345234 max des reactions = 33.38592467 max du residu total = 9.96740023 **** Norme Residu/Reaction --> 0.29855097 (assemblage 1) delta maxi: -0.03009589, ddl X1, noeud/mail 2/1 , var total:0.02998809, sur:1.99998809 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-49.44219470 : 0.00000000], F_T max = 0.00000000, [-0.00000957 <= gap_N <= 0.03010780], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 33.40802126, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 49.44219470 max puissance interieurs = 49.04608523 max des reactions = 33.40802126 max du residu total = 0.41415228 **** Norme Residu/Reaction --> 0.01239679 (assemblage 1) delta maxi: -0.00044728, ddl X1, noeud/mail 2/1 , var total:-0.00010780, sur:1.96989220 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-49.25470870 : 0.00000000], F_T max = 0.00000000, [-0.00000953 <= gap_N <= 0.03055507], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 33.28133724, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 49.25470870 max puissance interieurs = 49.25511307 max des reactions = 33.28133724 max du residu total = 0.15976234 **** Norme Residu/Reaction --> 0.00480036 (assemblage 1) delta maxi: -0.00000075, ddl X1, noeud/mail 2/1 , var total:-0.00055507, sur:1.96944493 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-49.25525305 : 0.00000000], F_T max = 0.00000000, [-0.00000953 <= gap_N <= 0.03055583], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 33.28170505, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 49.25525305 max puissance interieurs = 49.25525103 max des reactions = 33.28170505 max du residu total = 0.04359228 **** Norme Residu/Reaction --> 0.00130980 (assemblage 1) delta maxi: 0.00000001, ddl X1, noeud/mail 7/1 , var total:0.03000174, sur:2.00000174 autres ddl R_X1 -7.21107310 var 3.93571394; contact: reaction ==> F_N => [-49.25524944 : 0.00000000], F_T max = 0.00000000, [-0.00000953 <= gap_N <= 0.03055582], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 6 (assemblage 1) reaction maxi : 33.28170261, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 49.25524944 max puissance interieurs = 49.25524945 max des reactions = 33.28170261 max du residu total = 0.01211896 **** Norme Residu/Reaction --> 0.00036413 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 46 intensite 1.00000000 t= 1.30190972 dt= 0.01300813 ====================================================================== contact: reaction ==> F_N => [-52.34573934 : 0.00000000], F_T max = 0.00000000, [-0.00001013 <= gap_N <= 0.03310246], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 33.16991983, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 52.34573934 max puissance interieurs = 51.60235578 max des reactions = 33.16991983 max du residu total = 5.71884162 **** Norme Residu/Reaction --> 0.17241047 (assemblage 1) delta maxi: 0.00248651, ddl X1, noeud/mail 6/1 , var total:-0.00126226, sur:1.31207107 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-52.32087141 : 0.00000000], F_T max = 0.00000000, [-0.00001012 <= gap_N <= 0.03136720], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 33.09628991, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 52.32087141 max puissance interieurs = 52.32156663 max des reactions = 33.09628991 max du residu total = 0.83080912 **** Norme Residu/Reaction --> 0.02510279 (assemblage 1) delta maxi: 0.00001768, ddl X2, noeud/mail 2/1 , var total:-0.08593211, sur:0.41416789 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-52.32256777 : 0.00000000], F_T max = 0.00000000, [-0.00001012 <= gap_N <= 0.03135299], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 33.09708795, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 52.32256777 max puissance interieurs = 52.32256769 max des reactions = 33.09708795 max du residu total = 0.23942747 **** Norme Residu/Reaction --> 0.00723409 (assemblage 1) delta maxi: -0.00000006, ddl X1, noeud/mail 7/1 , var total:0.03000209, sur:2.00000209 autres ddl R_X1 -9.06853879 var -1.80176459; contact: reaction ==> F_N => [-52.32258420 : 0.00000000], F_T max = 0.00000000, [-0.00001012 <= gap_N <= 0.03135301], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 33.09709768, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 52.32258420 max puissance interieurs = 52.32258420 max des reactions = 33.09709768 max du residu total = 0.06261587 **** Norme Residu/Reaction --> 0.00189188 (assemblage 1) delta maxi: 0.00000001, ddl X1, noeud/mail 7/1 , var total:0.03000203, sur:2.00000203 autres ddl R_X1 -8.76654905 var -1.49977485; contact: reaction ==> F_N => [-52.32257992 : 0.00000000], F_T max = 0.00000000, [-0.00001012 <= gap_N <= 0.03135300], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 33.09709522, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 52.32257992 max puissance interieurs = 52.32257992 max des reactions = 33.09709522 max du residu total = 0.01679271 **** Norme Residu/Reaction --> 0.00050738 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 46 intensite 1.00000000 t= 1.30190972 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-45.78739127 : 0.00000000], F_T max = 0.00000000, [-0.00000887 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 44.15756868, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 45.78739127 max puissance interieurs = 44.33874110 max des reactions = 44.15756868 max du residu total = 5.28275650 **** Norme Residu/Reaction --> 0.11963422 (assemblage 1) delta maxi: 0.00173405, ddl X1, noeud/mail 6/1 , var total:0.02434440, sur:1.33767773 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-45.61631741 : 0.00000000], F_T max = 0.00000000, [-0.00000883 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 43.70752305, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 45.61631741 max puissance interieurs = 45.61834240 max des reactions = 43.70752305 max du residu total = 0.56853132 **** Norme Residu/Reaction --> 0.01300763 (assemblage 1) delta maxi: 0.00000180, ddl X1, noeud/mail 2/1 , var total:0.04386620, sur:2.01386620 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-45.61912912 : 0.00000000], F_T max = 0.00000000, [-0.00000883 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 43.70685642, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 45.61912912 max puissance interieurs = 45.61911229 max des reactions = 43.70685642 max du residu total = 0.11171645 **** Norme Residu/Reaction --> 0.00255604 (assemblage 1) delta maxi: -0.00000002, ddl X1, noeud/mail 7/1 , var total:0.03000316, sur:2.00000316 autres ddl R_X1 -15.10229143 var -7.83551722; contact: reaction ==> F_N => [-45.61912069 : 0.00000000], F_T max = 0.00000000, [-0.00000883 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 43.70686256, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 45.61912069 max puissance interieurs = 45.61912074 max des reactions = 43.70686256 max du residu total = 0.02091954 **** Norme Residu/Reaction --> 0.00047863 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 47 intensite 1.00000000 t= 1.31491785 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 contact: reaction ==> F_N => [-56.54904301 : 1.69660583], F_T max = 0.00000000, [-0.00001094 <= gap_N <= 0.00000212], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 38.38696047, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 56.54904301 max puissance interieurs = 52.32442526 max des reactions = 38.38696047 max du residu total = 11.63658955 **** Norme Residu/Reaction --> 0.30313912 (assemblage 1) delta maxi: 0.00346754, ddl X1, noeud/mail 6/1 , var total:0.01168769, sur:1.32502103 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-55.66613464 : 0.00000000], F_T max = 0.00000000, [-0.00001077 <= gap_N <= 0.00001295], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 37.78761931, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 55.66613464 max puissance interieurs = 55.66802325 max des reactions = 37.78761931 max du residu total = 10.33968447 **** Norme Residu/Reaction --> 0.27362625 (assemblage 1) delta maxi: -0.03170016, ddl X1, noeud/mail 2/1 , var total:0.02998705, sur:1.99998705 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-55.60215029 : 0.00000000], F_T max = 0.00000000, [-0.00001076 <= gap_N <= 0.03171311], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 37.74418507, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 55.60215029 max puissance interieurs = 55.16616131 max des reactions = 37.74418507 max du residu total = 0.43598897 **** Norme Residu/Reaction --> 0.01155116 (assemblage 1) delta maxi: -0.00049113, ddl X1, noeud/mail 2/1 , var total:-0.00171311, sur:1.96828689 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-55.39618866 : 0.00000000], F_T max = 0.00000000, [-0.00001072 <= gap_N <= 0.03220424], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 37.60437296, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 55.39618866 max puissance interieurs = 55.39585257 max des reactions = 37.60437296 max du residu total = 0.13788113 **** Norme Residu/Reaction --> 0.00366662 (assemblage 1) delta maxi: -0.00000092, ddl X1, noeud/mail 2/1 , var total:-0.00220424, sur:1.96779576 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-55.39601226 : 0.00000000], F_T max = 0.00000000, [-0.00001072 <= gap_N <= 0.03220515], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 37.60425322, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 55.39601226 max puissance interieurs = 55.39601226 max des reactions = 37.60425322 max du residu total = 0.03420080 **** Norme Residu/Reaction --> 0.00090949 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 48 intensite 1.00000000 t= 1.32792598 dt= 0.01300813 ====================================================================== contact: reaction ==> F_N => [-58.46158270 : 0.00000000], F_T max = 0.00000000, [-0.00001131 <= gap_N <= 0.03556192], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 37.02435885, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 58.46158270 max puissance interieurs = 57.58911702 max des reactions = 37.02435885 max du residu total = 6.41901440 **** Norme Residu/Reaction --> 0.17337274 (assemblage 1) delta maxi: 0.00329202, ddl X1, noeud/mail 6/1 , var total:-0.00368764, sur:1.30964570 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-58.47236177 : 0.00000000], F_T max = 0.00000000, [-0.00001131 <= gap_N <= 0.03313754], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 36.97596260, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 58.47236177 max puissance interieurs = 58.47316035 max des reactions = 36.97596260 max du residu total = 0.77412581 **** Norme Residu/Reaction --> 0.02093592 (assemblage 1) delta maxi: 0.00003030, ddl X2, noeud/mail 2/1 , var total:-0.09489751, sur:0.40520249 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-58.47530747 : 0.00000000], F_T max = 0.00000000, [-0.00001131 <= gap_N <= 0.03311337], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 36.97737505, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 58.47530747 max puissance interieurs = 58.47530725 max des reactions = 36.97737505 max du residu total = 0.19190001 **** Norme Residu/Reaction --> 0.00518966 (assemblage 1) delta maxi: -0.00000004, ddl X1, noeud/mail 7/1 , var total:0.03000263, sur:2.00000263 autres ddl R_X1 -12.10796763 var -1.75904211; contact: reaction ==> F_N => [-58.47531978 : 0.00000000], F_T max = 0.00000000, [-0.00001131 <= gap_N <= 0.03311339], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 36.97738178, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 58.47531978 max puissance interieurs = 58.47531978 max des reactions = 36.97738178 max du residu total = 0.04377415 **** Norme Residu/Reaction --> 0.00118381 (assemblage 1) delta maxi: 0.00000001, ddl X1, noeud/mail 7/1 , var total:0.03000259, sur:2.00000259 autres ddl R_X1 -11.87233430 var -1.52340877; contact: reaction ==> F_N => [-58.47531698 : 0.00000000], F_T max = 0.00000000, [-0.00001131 <= gap_N <= 0.03311338], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 36.97738035, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 58.47531698 max puissance interieurs = 58.47531698 max des reactions = 36.97738035 max du residu total = 0.01015989 **** Norme Residu/Reaction --> 0.00027476 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 48 intensite 1.00000000 t= 1.32792598 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-51.47997331 : 0.00000000], F_T max = 0.00000000, [-0.00000996 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 49.37652906, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 51.47997331 max puissance interieurs = 49.64328591 max des reactions = 49.37652906 max du residu total = 5.59196540 **** Norme Residu/Reaction --> 0.11325149 (assemblage 1) delta maxi: 0.00218052, ddl X1, noeud/mail 6/1 , var total:0.02544028, sur:1.33877361 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-51.25113717 : 0.00000000], F_T max = 0.00000000, [-0.00000992 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 48.81249499, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 51.25113717 max puissance interieurs = 51.25347192 max des reactions = 48.81249499 max du residu total = 0.41420273 **** Norme Residu/Reaction --> 0.00848559 (assemblage 1) delta maxi: 0.00000262, ddl X1, noeud/mail 2/1 , var total:0.04742963, sur:2.01742963 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-51.25471255 : 0.00000000], F_T max = 0.00000000, [-0.00000992 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 48.81152747, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 51.25471255 max puissance interieurs = 51.25470244 max des reactions = 48.81152747 max du residu total = 0.05894409 **** Norme Residu/Reaction --> 0.00120759 (assemblage 1) delta maxi: -0.00000001, ddl X1, noeud/mail 3/1 , var total:0.03000185, sur:2.00000185 autres ddl R_X1 -7.77864598 var -1.30319000; contact: reaction ==> F_N => [-51.25470741 : 0.00000000], F_T max = 0.00000000, [-0.00000992 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 48.81153051, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 51.25470741 max puissance interieurs = 51.25470743 max des reactions = 48.81153051 max du residu total = 0.01383679 **** Norme Residu/Reaction --> 0.00028347 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 49 intensite 1.00000000 t= 1.34093411 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 contact: reaction ==> F_N => [-63.11913359 : 1.67115869], F_T max = 0.00000000, [-0.00001221 <= gap_N <= 0.00000219], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 43.04168063, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 63.11913359 max puissance interieurs = 57.58839030 max des reactions = 43.04168063 max du residu total = 12.90036979 **** Norme Residu/Reaction --> 0.29971808 (assemblage 1) delta maxi: 0.00420787, ddl X1, noeud/mail 6/1 , var total:0.01006906, sur:1.32340239 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-61.95758166 : 0.00000000], F_T max = 0.00000000, [-0.00001199 <= gap_N <= 0.00001414], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 42.24960469, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 61.95758166 max puissance interieurs = 61.95961930 max des reactions = 42.24960469 max du residu total = 10.76890699 **** Norme Residu/Reaction --> 0.25488776 (assemblage 1) delta maxi: -0.03352066, ddl X1, noeud/mail 2/1 , var total:0.02998586, sur:1.99998586 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-61.78945003 : 0.00000000], F_T max = 0.00000000, [-0.00001195 <= gap_N <= 0.03353479], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 42.13495375, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 61.78945003 max puissance interieurs = 61.30581647 max des reactions = 42.13495375 max du residu total = 0.48363357 **** Norme Residu/Reaction --> 0.01147820 (assemblage 1) delta maxi: -0.00054291, ddl X1, noeud/mail 2/1 , var total:-0.00353479, sur:1.96646521 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-61.56048879 : 0.00000000], F_T max = 0.00000000, [-0.00001191 <= gap_N <= 0.03407770], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 41.97882238, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 61.56048879 max puissance interieurs = 61.56007865 max des reactions = 41.97882238 max du residu total = 0.10067614 **** Norme Residu/Reaction --> 0.00239826 (assemblage 1) delta maxi: -0.00000113, ddl X1, noeud/mail 2/1 , var total:-0.00407770, sur:1.96592230 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-61.56026575 : 0.00000000], F_T max = 0.00000000, [-0.00001191 <= gap_N <= 0.03407883], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 41.97867029, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 61.56026575 max puissance interieurs = 61.56026575 max des reactions = 41.97867029 max du residu total = 0.02283003 **** Norme Residu/Reaction --> 0.00054385 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 50 intensite 1.00000000 t= 1.35394224 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 4 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-64.57643792 : 0.00000000], F_T max = 0.00000000, [-0.00001249 <= gap_N <= 0.03843783], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 40.85407155, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 64.57643792 max puissance interieurs = 63.58296728 max des reactions = 40.85407155 max du residu total = 7.08067814 **** Norme Residu/Reaction --> 0.17331634 (assemblage 1) delta maxi: 0.00425889, ddl X1, noeud/mail 6/1 , var total:-0.00644219, sur:1.30689114 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-64.64577850 : 0.00000000], F_T max = 0.00000000, [-0.00001251 <= gap_N <= 0.03514189], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 40.85285409, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 64.64577850 max puissance interieurs = 64.64640047 max des reactions = 40.85285409 max du residu total = 0.65340924 **** Norme Residu/Reaction --> 0.01599421 (assemblage 1) delta maxi: 0.00004960, ddl X2, noeud/mail 2/1 , var total:-0.10399806, sur:0.39610194 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-64.65060732 : 0.00000000], F_T max = 0.00000000, [-0.00001251 <= gap_N <= 0.03510261], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 40.85519158, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 64.65060732 max puissance interieurs = 64.65060676 max des reactions = 40.85519158 max du residu total = 0.13272898 **** Norme Residu/Reaction --> 0.00324877 (assemblage 1) delta maxi: -0.00000003, ddl X1, noeud/mail 7/1 , var total:0.03000315, sur:2.00000315 autres ddl R_X1 -15.04993359 var -1.64336165; contact: reaction ==> F_N => [-64.65061567 : 0.00000000], F_T max = 0.00000000, [-0.00001251 <= gap_N <= 0.03510262], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 40.85519566, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 64.65061567 max puissance interieurs = 64.65061567 max des reactions = 40.85519566 max du residu total = 0.02495259 **** Norme Residu/Reaction --> 0.00061076 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 50 intensite 1.00000000 t= 1.35394224 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-57.22558258 : 0.00000000], F_T max = 0.00000000, [-0.00001107 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 54.65608365, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 57.22558258 max puissance interieurs = 54.95029809 max des reactions = 54.65608365 max du residu total = 6.00707252 **** Norme Residu/Reaction --> 0.10990675 (assemblage 1) delta maxi: 0.00269944, ddl X1, noeud/mail 6/1 , var total:0.02644257, sur:1.33977591 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-56.94127738 : 0.00000000], F_T max = 0.00000000, [-0.00001102 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 53.96064453, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 56.94127738 max puissance interieurs = 56.94402692 max des reactions = 53.96064453 max du residu total = 0.28908562 **** Norme Residu/Reaction --> 0.00535734 (assemblage 1) delta maxi: 0.00000372, ddl X1, noeud/mail 2/1 , var total:0.05096388, sur:2.02096388 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-56.94590002 : 0.00000000], F_T max = 0.00000000, [-0.00001102 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 53.95926786, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 56.94590002 max puissance interieurs = 56.94590003 max des reactions = 53.95926786 max du residu total = 0.05191372 **** Norme Residu/Reaction --> 0.00096209 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 51 intensite 1.00000000 t= 1.36695037 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 contact: reaction ==> F_N => [-69.80047640 : 1.64495940], F_T max = 0.00000000, [-0.00001350 <= gap_N <= 0.00000226], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 47.81022835, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 69.80047640 max puissance interieurs = 62.71490108 max des reactions = 47.81022835 max du residu total = 14.30306631 **** Norme Residu/Reaction --> 0.29916331 (assemblage 1) delta maxi: 0.00498257, ddl X1, noeud/mail 6/1 , var total:0.00834617, sur:1.32167950 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-68.28654152 : 0.00000000], F_T max = 0.00000000, [-0.00001321 <= gap_N <= 0.00001546], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 46.77325016, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 68.28654152 max puissance interieurs = 68.28845942 max des reactions = 46.77325016 max du residu total = 11.25514510 **** Norme Residu/Reaction --> 0.24063209 (assemblage 1) delta maxi: -0.03556545, ddl X1, noeud/mail 2/1 , var total:0.02998454, sur:1.99998454 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-68.00260217 : 0.00000000], F_T max = 0.00000000, [-0.00001316 <= gap_N <= 0.03558091], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 46.57876430, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 68.00260217 max puissance interieurs = 67.46264848 max des reactions = 46.57876430 max du residu total = 0.53995369 **** Norme Residu/Reaction --> 0.01159227 (assemblage 1) delta maxi: -0.00060355, ddl X1, noeud/mail 2/1 , var total:-0.00558091, sur:1.96441909 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-67.74640141 : 0.00000000], F_T max = 0.00000000, [-0.00001311 <= gap_N <= 0.03618447], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 46.40327815, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 67.74640141 max puissance interieurs = 67.74589492 max des reactions = 46.40327815 max du residu total = 0.08336121 **** Norme Residu/Reaction --> 0.00179645 (assemblage 1) delta maxi: -0.00000142, ddl X1, noeud/mail 2/1 , var total:-0.00618447, sur:1.96381553 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-67.74611729 : 0.00000000], F_T max = 0.00000000, [-0.00001311 <= gap_N <= 0.03618589], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 46.40308354, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 67.74611729 max puissance interieurs = 67.74611729 max des reactions = 46.40308354 max du residu total = 0.02170968 **** Norme Residu/Reaction --> 0.00046785 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 52 intensite 1.00000000 t= 1.37995850 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 4 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-70.68194249 : 0.00000000], F_T max = 0.00000000, [-0.00001367 <= gap_N <= 0.04176815], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 44.65030742, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 70.68194249 max puissance interieurs = 69.58296020 max des reactions = 44.65030742 max du residu total = 7.81065622 **** Norme Residu/Reaction --> 0.17492951 (assemblage 1) delta maxi: 0.00540109, ddl X1, noeud/mail 6/1 , var total:-0.00954385, sur:1.30378949 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-70.83895599 : 0.00000000], F_T max = 0.00000000, [-0.00001371 <= gap_N <= 0.03739113], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 44.72441738, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 70.83895599 max puissance interieurs = 70.83880377 max des reactions = 44.72441738 max du residu total = 0.51940644 **** Norme Residu/Reaction --> 0.01161349 (assemblage 1) delta maxi: 0.00007808, ddl X2, noeud/mail 2/1 , var total:-0.11324002, sur:0.38685998 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-70.84651508 : 0.00000000], F_T max = 0.00000000, [-0.00001371 <= gap_N <= 0.03732976], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 44.72808765, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 70.84651508 max puissance interieurs = 70.84651385 max des reactions = 44.72808765 max du residu total = 0.08467807 **** Norme Residu/Reaction --> 0.00189317 (assemblage 1) delta maxi: -0.00000002, ddl X1, noeud/mail 7/1 , var total:0.03000365, sur:2.00000365 autres ddl R_X1 -17.91335974 var -1.53991219; contact: reaction ==> F_N => [-70.84652075 : 0.00000000], F_T max = 0.00000000, [-0.00001371 <= gap_N <= 0.03732976], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 44.72809004, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 70.84652075 max puissance interieurs = 70.84652075 max des reactions = 44.72809004 max du residu total = 0.01265458 **** Norme Residu/Reaction --> 0.00028292 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 52 intensite 1.00000000 t= 1.37995850 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-63.00817585 : 0.00000000], F_T max = 0.00000000, [-0.00001219 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 59.99831948, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 63.00817585 max puissance interieurs = 60.25580852 max des reactions = 59.99831948 max du residu total = 6.52985751 **** Norme Residu/Reaction --> 0.10883401 (assemblage 1) delta maxi: 0.00329811, ddl X1, noeud/mail 6/1 , var total:0.02734375, sur:1.34067708 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-62.68643193 : 0.00000000], F_T max = 0.00000000, [-0.00001213 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 59.15270289, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 62.68643193 max puissance interieurs = 62.69075597 max des reactions = 59.15270289 max du residu total = 0.20176216 **** Norme Residu/Reaction --> 0.00341087 (assemblage 1) delta maxi: 0.00000515, ddl X1, noeud/mail 2/1 , var total:0.05446867, sur:2.02446867 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-62.69350711 : 0.00000000], F_T max = 0.00000000, [-0.00001213 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 59.15078512, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 62.69350711 max puissance interieurs = 62.69350714 max des reactions = 59.15078512 max du residu total = 0.05040533 **** Norme Residu/Reaction --> 0.00085215 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 53 intensite 1.00000000 t= 1.39296663 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 ===>>>>> intervention de la reduction du vecteur increment de ddl 0.97674443 contact: reaction ==> F_N => [-10221.46674984 : 0.00000000], F_T max = 0.00000000, [-0.00197756 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 10221.63571373, du ddl X1, du noeud/maillage 10/2 max puissance exterieure = 10221.63571373 max puissance interieurs = 67.48373204 max des reactions = 10221.63571373 max du residu total = 10238.53581198 **** Norme Residu/Reaction --> 1.00165337 (assemblage 1) delta maxi: -0.00623147, ddl X2, noeud/mail 15/1 , var total:-0.06166265, sur:1.07177068 contact: reaction ==> F_N => [-74.65966251 : 1.64130831], F_T max = 0.00000000, [-0.00001444 <= gap_N <= 0.00000227], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 51.36264988, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 74.65966251 max puissance interieurs = 74.64211295 max des reactions = 51.36264988 max du residu total = 10.13299880 **** Norme Residu/Reaction --> 0.19728341 (assemblage 1) delta maxi: -0.00008473, ddl X2, noeud/mail 7/1 , var total:-0.09720348, sur:1.03622985 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-74.66807380 : 0.00000000], F_T max = 0.00000000, [-0.00001445 <= gap_N <= 0.00001630], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 51.36843649, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 74.66807380 max puissance interieurs = 74.66807242 max des reactions = 51.36843649 max du residu total = 11.78352694 **** Norme Residu/Reaction --> 0.22939236 (assemblage 1) delta maxi: -0.03784717, ddl X1, noeud/mail 2/1 , var total:0.02998370, sur:1.99998370 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-74.23876494 : 0.00000000], F_T max = 0.00000000, [-0.00001436 <= gap_N <= 0.03786347], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 51.07309038, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 74.23876494 max puissance interieurs = 73.63444407 max des reactions = 51.07309038 max du residu total = 0.60432087 **** Norme Residu/Reaction --> 0.01183247 (assemblage 1) delta maxi: -0.00067012, ddl X1, noeud/mail 2/1 , var total:-0.00786347, sur:1.96213653 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-73.95192247 : 0.00000000], F_T max = 0.00000000, [-0.00001431 <= gap_N <= 0.03853360], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 50.87575505, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 73.95192247 max puissance interieurs = 73.95129755 max des reactions = 50.87575505 max du residu total = 0.04668024 **** Norme Residu/Reaction --> 0.00091753 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 54 intensite 1.00000000 t= 1.40597476 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 4 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-76.76897845 : 0.00000000], F_T max = 0.00000000, [-0.00001485 <= gap_N <= 0.04559128], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 48.40356436, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 76.76897845 max puissance interieurs = 75.58825815 max des reactions = 48.40356436 max du residu total = 8.55864200 **** Norme Residu/Reaction --> 0.17681842 (assemblage 1) delta maxi: 0.00673073, ddl X1, noeud/mail 6/1 , var total:-0.01300871, sur:1.30032462 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-77.04958360 : 0.00000000], F_T max = 0.00000000, [-0.00001491 <= gap_N <= 0.03989652], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 48.58799866, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 77.04958360 max puissance interieurs = 77.04757114 max des reactions = 48.58799866 max du residu total = 0.38677082 **** Norme Residu/Reaction --> 0.00796021 (assemblage 1) delta maxi: 0.00011874, ddl X2, noeud/mail 2/1 , var total:-0.12262978, sur:0.37747022 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-77.06097375 : 0.00000000], F_T max = 0.00000000, [-0.00001491 <= gap_N <= 0.03980386], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 48.59351741, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 77.06097375 max puissance interieurs = 77.06097124 max des reactions = 48.59351741 max du residu total = 0.05081920 **** Norme Residu/Reaction --> 0.00104580 (assemblage 1) delta maxi: 0.00000002, ddl X2, noeud/mail 2/1 , var total:-0.12251105, sur:0.37758895 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-77.06097826 : 0.00000000], F_T max = 0.00000000, [-0.00001491 <= gap_N <= 0.03980385], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 48.59351928, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 77.06097826 max puissance interieurs = 77.06097826 max des reactions = 48.59351928 max du residu total = 0.00909713 **** Norme Residu/Reaction --> 0.00018721 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 54 intensite 1.00000000 t= 1.40597476 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-68.84445137 : 0.00000000], F_T max = 0.00000000, [-0.00001332 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 65.40536617, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 68.84445137 max puissance interieurs = 65.55570989 max des reactions = 65.40536617 max du residu total = 7.19496253 **** Norme Residu/Reaction --> 0.11000569 (assemblage 1) delta maxi: 0.00398444, ddl X1, noeud/mail 6/1 , var total:0.02813569, sur:1.34146902 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-68.48779849 : 0.00000000], F_T max = 0.00000000, [-0.00001325 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 64.38943284, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 68.48779849 max puissance interieurs = 68.49442949 max des reactions = 64.38943284 max du residu total = 0.20564003 **** Norme Residu/Reaction --> 0.00319369 (assemblage 1) delta maxi: 0.00000699, ddl X1, noeud/mail 2/1 , var total:0.05794372, sur:2.02794372 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-68.49835757 : 0.00000000], F_T max = 0.00000000, [-0.00001325 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 64.38681587, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 68.49835757 max puissance interieurs = 68.49835763 max des reactions = 64.38681587 max du residu total = 0.04736859 **** Norme Residu/Reaction --> 0.00073569 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 55 intensite 1.00000000 t= 1.41898290 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 ===>>>>> intervention de la reduction du vecteur increment de ddl 0.89998110 contact: reaction ==> F_N => [-48809.05307291 : 0.00000000], F_T max = 0.00000000, [-0.00944315 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 48809.92065093, du ddl X1, du noeud/maillage 10/2 max puissance exterieure = 48809.92065093 max puissance interieurs = 71.62589305 max des reactions = 48809.92065093 max du residu total = 48826.36086643 **** Norme Residu/Reaction --> 1.00033682 (assemblage 1) delta maxi: -0.02259796, ddl X2, noeud/mail 2/1 , var total:-0.08239633, sur:0.41770367 autres ddl R_X2 0.00000000 var -36.62547905; contact: reaction ==> F_N => [-81.10410133 : 1.60842057], F_T max = 0.00000000, [-0.00001569 <= gap_N <= 0.00000235], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 56.03612743, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 81.10410133 max puissance interieurs = 80.93123179 max des reactions = 56.03612743 max du residu total = 10.70995059 **** Norme Residu/Reaction --> 0.19112582 (assemblage 1) delta maxi: -0.00032753, ddl X2, noeud/mail 7/1 , var total:-0.10425255, sur:1.02918079 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-81.07897397 : 0.00000000], F_T max = 0.00000000, [-0.00001569 <= gap_N <= 0.00001808], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 56.01876654, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 81.07897397 max puissance interieurs = 81.07892942 max des reactions = 56.01876654 max du residu total = 12.37697954 **** Norme Residu/Reaction --> 0.22094345 (assemblage 1) delta maxi: -0.04036696, ddl X1, noeud/mail 2/1 , var total:0.02998192, sur:1.99998192 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-80.49843764 : 0.00000000], F_T max = 0.00000000, [-0.00001557 <= gap_N <= 0.04038503], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 55.61766465, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 80.49843764 max puissance interieurs = 79.81797029 max des reactions = 55.61766465 max du residu total = 0.68046735 **** Norme Residu/Reaction --> 0.01223473 (assemblage 1) delta maxi: -0.00074903, ddl X1, noeud/mail 2/1 , var total:-0.01038503, sur:1.95961497 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-80.17495656 : 0.00000000], F_T max = 0.00000000, [-0.00001551 <= gap_N <= 0.04113406], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 55.39416638, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 80.17495656 max puissance interieurs = 80.17417506 max des reactions = 55.39416638 max du residu total = 0.04325006 **** Norme Residu/Reaction --> 0.00078077 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 56 intensite 1.00000000 t= 1.43199103 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 4 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-82.82785613 : 0.00000000], F_T max = 0.00000000, [-0.00001602 <= gap_N <= 0.04994564], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 52.10380760, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 82.82785613 max puissance interieurs = 81.59738402 max des reactions = 52.10380760 max du residu total = 9.48060896 **** Norme Residu/Reaction --> 0.18195616 (assemblage 1) delta maxi: 0.00825836, ddl X1, noeud/mail 6/1 , var total:-0.01685143, sur:1.29648191 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-83.27520427 : 0.00000000], F_T max = 0.00000000, [-0.00001611 <= gap_N <= 0.04266966], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 52.44084342, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 83.27520427 max puissance interieurs = 83.26955336 max des reactions = 52.44084342 max du residu total = 0.26999725 **** Norme Residu/Reaction --> 0.00514861 (assemblage 1) delta maxi: 0.00017520, ddl X2, noeud/mail 2/1 , var total:-0.13217389, sur:0.36792611 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-83.29182734 : 0.00000000], F_T max = 0.00000000, [-0.00001611 <= gap_N <= 0.04253394], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 52.44884625, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 83.29182734 max puissance interieurs = 83.29182266 max des reactions = 52.44884625 max du residu total = 0.03438015 **** Norme Residu/Reaction --> 0.00065550 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 56 intensite 1.00000000 t= 1.43199103 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-74.73293309 : 0.00000000], F_T max = 0.00000000, [-0.00001446 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 70.87938100, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 74.73293309 max puissance interieurs = 70.87938100 max des reactions = 70.87938100 max du residu total = 8.00461634 **** Norme Residu/Reaction --> 0.11293293 (assemblage 1) delta maxi: 0.00476694, ddl X1, noeud/mail 6/1 , var total:0.02880964, sur:1.34214297 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-74.34588593 : 0.00000000], F_T max = 0.00000000, [-0.00001438 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 69.67162632, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 74.34588593 max puissance interieurs = 74.35583233 max des reactions = 69.67162632 max du residu total = 0.20553785 **** Norme Residu/Reaction --> 0.00295009 (assemblage 1) delta maxi: 0.00000934, ddl X1, noeud/mail 2/1 , var total:0.06138868, sur:2.03138868 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-74.36130996 : 0.00000000], F_T max = 0.00000000, [-0.00001439 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 69.66812319, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 74.36130996 max puissance interieurs = 74.36131006 max des reactions = 69.66812319 max du residu total = 0.04315373 **** Norme Residu/Reaction --> 0.00061942 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 57 intensite 1.00000000 t= 1.44499916 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 ===>>>>> intervention de la reduction du vecteur increment de ddl 0.83390334 contact: reaction ==> F_N => [-89214.44717379 : 0.00000000], F_T max = 0.00000000, [-0.01726044 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 89216.14503138, du ddl X1, du noeud/maillage 10/2 max puissance exterieure = 89216.14503138 max puissance interieurs = 75.72511554 max des reactions = 89216.14503138 max du residu total = 89232.12572449 **** Norme Residu/Reaction --> 1.00017912 (assemblage 1) delta maxi: -0.03989621, ddl X2, noeud/mail 2/1 , var total:-0.07297969, sur:0.42712031 autres ddl R_X2 0.00000000 var -39.25786613; contact: reaction ==> F_N => [-87.61877974 : 1.57041477], F_T max = 0.00000000, [-0.00001695 <= gap_N <= 0.00000243], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 60.79271022, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 87.61877974 max puissance interieurs = 87.13670108 max des reactions = 60.79271022 max du residu total = 11.42947503 **** Norme Residu/Reaction --> 0.18800733 (assemblage 1) delta maxi: -0.00063612, ddl X2, noeud/mail 7/1 , var total:-0.11125896, sur:1.02217437 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-87.53008799 : 0.00000000], F_T max = 0.00000000, [-0.00001693 <= gap_N <= 0.00002020], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 60.73117305, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 87.53008799 max puissance interieurs = 87.52994786 max des reactions = 60.73117305 max du residu total = 13.02565574 **** Norme Residu/Reaction --> 0.21448056 (assemblage 1) delta maxi: -0.04313582, ddl X1, noeud/mail 2/1 , var total:0.02997980, sur:1.99997980 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-86.77919917 : 0.00000000], F_T max = 0.00000000, [-0.00001679 <= gap_N <= 0.04315601], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 60.21018238, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 86.77919917 max puissance interieurs = 86.01056852 max des reactions = 60.21018238 max du residu total = 0.76863065 **** Norme Residu/Reaction --> 0.01276579 (assemblage 1) delta maxi: -0.00083878, ddl X1, noeud/mail 2/1 , var total:-0.01315601, sur:1.95684399 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-86.41330745 : 0.00000000], F_T max = 0.00000000, [-0.00001672 <= gap_N <= 0.04399480], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 59.95631501, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 86.41330745 max puissance interieurs = 86.41232562 max des reactions = 59.95631501 max du residu total = 0.03980325 **** Norme Residu/Reaction --> 0.00066387 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 58 intensite 1.00000000 t= 1.45800729 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 4 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-88.84836239 : 0.00000000], F_T max = 0.00000000, [-0.00001719 <= gap_N <= 0.05486819], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 55.74045344, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 88.84836239 max puissance interieurs = 87.60905051 max des reactions = 55.74045344 max du residu total = 10.51528627 **** Norme Residu/Reaction --> 0.18864730 (assemblage 1) delta maxi: 0.00999122, ddl X1, noeud/mail 6/1 , var total:-0.02108332, sur:1.29225001 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-89.51322844 : 0.00000000], F_T max = 0.00000000, [-0.00001732 <= gap_N <= 0.04572241], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 56.28011478, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 89.51322844 max puissance interieurs = 89.50122991 max des reactions = 56.28011478 max du residu total = 0.16279553 **** Norme Residu/Reaction --> 0.00289259 (assemblage 1) delta maxi: 0.00025163, ddl X2, noeud/mail 2/1 , var total:-0.14187886, sur:0.35822114 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-89.53683081 : 0.00000000], F_T max = 0.00000000, [-0.00001732 <= gap_N <= 0.04552886], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 56.29136152, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 89.53683081 max puissance interieurs = 89.53682280 max des reactions = 56.29136152 max du residu total = 0.02875349 **** Norme Residu/Reaction --> 0.00051080 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 58 intensite 1.00000000 t= 1.45800729 dt= 0.01300813 ============================================================================ contact: reaction ==> F_N => [-80.67169538 : 0.00000000], F_T max = 0.00000000, [-0.00001561 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 76.42252175, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 80.67169538 max puissance interieurs = 76.42252175 max des reactions = 76.42252175 max du residu total = 8.97213619 **** Norme Residu/Reaction --> 0.11740173 (assemblage 1) delta maxi: 0.00565473, ddl X1, noeud/mail 6/1 , var total:0.02935622, sur:1.34268956 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-80.26113738 : 0.00000000], F_T max = 0.00000000, [-0.00001553 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 75.00010549, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 80.26113738 max puissance interieurs = 80.27576640 max des reactions = 75.00010549 max du residu total = 0.20597608 **** Norme Residu/Reaction --> 0.00274634 (assemblage 1) delta maxi: 0.00001230, ddl X1, noeud/mail 2/1 , var total:0.06480319, sur:2.03480319 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-80.28325037 : 0.00000000], F_T max = 0.00000000, [-0.00001553 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 74.99549801, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 80.28325037 max puissance interieurs = 80.28325054 max des reactions = 74.99549801 max du residu total = 0.03907862 **** Norme Residu/Reaction --> 0.00052108 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 59 intensite 1.00000000 t= 1.47101542 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 6 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 ===>>>>> intervention de la reduction du vecteur increment de ddl 0.77648163 contact: reaction ==> F_N => [-131262.73373563 : 0.00000000], F_T max = 0.00000000, [-0.02539558 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 131265.39810099, du ddl X1, du noeud/maillage 10/2 max puissance exterieure = 131265.39810099 max puissance interieurs = 79.76229858 max des reactions = 131265.39810099 max du residu total = 131280.90552385 **** Norme Residu/Reaction --> 1.00011814 (assemblage 1) delta maxi: -0.05734041, ddl X2, noeud/mail 2/1 , var total:-0.06342340, sur:0.43667660 autres ddl R_X2 0.00000000 var -41.90252785; contact: reaction ==> F_N => [-94.21237900 : 1.52822993], F_T max = 0.00000000, [-0.00001823 <= gap_N <= 0.00000253], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 65.63818282, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 94.21237900 max puissance interieurs = 93.23872113 max des reactions = 65.63818282 max du residu total = 12.29497843 **** Norme Residu/Reaction --> 0.18731442 (assemblage 1) delta maxi: -0.00102981, ddl X2, noeud/mail 7/1 , var total:-0.11820413, sur:1.01522921 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-94.02197591 : 0.00000000], F_T max = 0.00000000, [-0.00001819 <= gap_N <= 0.00002269], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 65.50552815, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 94.02197591 max puissance interieurs = 94.02172362 max des reactions = 65.50552815 max du residu total = 13.72926444 **** Norme Residu/Reaction --> 0.20958940 (assemblage 1) delta maxi: -0.04616172, ddl X1, noeud/mail 2/1 , var total:0.02997731, sur:1.99997731 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-93.07941689 : 0.00000000], F_T max = 0.00000000, [-0.00001801 <= gap_N <= 0.04618441], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 4 (assemblage 1) reaction maxi : 64.84884309, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 93.07941689 max puissance interieurs = 92.20922452 max des reactions = 64.84884309 max du residu total = 0.87019236 **** Norme Residu/Reaction --> 0.01341878 (assemblage 1) delta maxi: -0.00094011, ddl X1, noeud/mail 2/1 , var total:-0.01618441, sur:1.95381559 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-92.66470204 : 0.00000000], F_T max = 0.00000000, [-0.00001793 <= gap_N <= 0.04712452], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 5 (assemblage 1) reaction maxi : 64.55990941, du ddl X2, du noeud/maillage 25/2 max puissance exterieure = 92.66470204 max puissance interieurs = 92.66346513 max des reactions = 64.55990941 max du residu total = 0.03621205 **** Norme Residu/Reaction --> 0.00056091 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 60 intensite 1.00000000 t= 1.48402355 dt= 0.01300813 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 4 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 40 larg. totale ==> 79 contact: reaction ==> F_N => [-94.82003454 : 0.00000000], F_T max = 0.00000000, [-0.00001834 <= gap_N <= 0.06039369], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 59.30266037, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 94.82003454 max puissance interieurs = 93.62150740 max des reactions = 59.30266037 max du residu total = 11.67896296 **** Norme Residu/Reaction --> 0.19693826 (assemblage 1) delta maxi: 0.01193355, ddl X1, noeud/mail 6/1 , var total:-0.02571260, sur:1.28762073 autres ddl R_X1 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-95.76093404 : 0.00000000], F_T max = 0.00000000, [-0.00001853 <= gap_N <= 0.04906675], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 2 (assemblage 1) reaction maxi : 60.10290346, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 95.76093404 max puissance interieurs = 95.73870252 max des reactions = 60.10290346 max du residu total = 0.15440948 **** Norme Residu/Reaction --> 0.00256909 (assemblage 1) delta maxi: 0.00035276, ddl X2, noeud/mail 2/1 , var total:-0.15175117, sur:0.34834883 autres ddl R_X2 0.00000000 var 0.00000000; contact: reaction ==> F_N => [-95.79366353 : 0.00000000], F_T max = 0.00000000, [-0.00001853 <= gap_N <= 0.04879730], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 3 (assemblage 1) reaction maxi : 60.11828601, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 95.79366353 max puissance interieurs = 95.79365116 max des reactions = 60.11828601 max du residu total = 0.02327462 **** Norme Residu/Reaction --> 0.00038715 inactivation contact (les_contacts) pour cause de perte de contact:el contact: noe 2 mail. 1 avec front:3 de l'EF 17 du mail. 2; -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 ============================================================================= ....... re-analyse du contact ........ INCREMENT DE CHARGE : 60 intensite 1.00000000 t= 1.48402355 dt= 0.01300813 ============================================================================ ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 61 intensite 1.00000000 t= 1.49703168 dt= 0.01300813 ====================================================================== contact: reaction ==> F_N => [-98.92580620 : 0.00000000], F_T max = 0.00000000, [-0.00001914 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 62.02504708, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 98.92580620 max puissance interieurs = 98.92580357 max des reactions = 62.02504708 max du residu total = 0.01243992 **** Norme Residu/Reaction --> 0.00020056 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 62 intensite 1.00000000 t= 1.51003981 dt= 0.01300813 ====================================================================== ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 63 intensite 1.00000000 t= 1.52304794 dt= 0.01300813 ====================================================================== contact: reaction ==> F_N => [-105.19595509 : 0.00000000], F_T max = 0.00000000, [-0.00002035 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 65.82332028, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 105.19595509 max puissance interieurs = 105.19592683 max des reactions = 65.82332028 max du residu total = 0.01170175 **** Norme Residu/Reaction --> 0.00017778 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 64 intensite 1.00000000 t= 1.54144421 dt= 0.01839627 ====================================================================== contact: reaction ==> F_N => [-109.63327292 : 0.00000000], F_T max = 0.00000000, [-0.00002121 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 68.49556991, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 109.63327292 max puissance interieurs = 109.63327247 max des reactions = 68.49556991 max du residu total = 0.01124114 **** Norme Residu/Reaction --> 0.00016411 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 65 intensite 1.00000000 t= 1.55984048 dt= 0.01839627 ====================================================================== ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 66 intensite 1.00000000 t= 1.57823676 dt= 0.01839627 ====================================================================== contact: reaction ==> F_N => [-118.51337555 : 0.00000000], F_T max = 0.00000000, [-0.00002293 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 73.80214022, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 118.51337555 max puissance interieurs = 118.51325151 max des reactions = 73.80214022 max du residu total = 0.00668801 **** Norme Residu/Reaction --> 0.00009062 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 67 intensite 1.00000000 t= 1.59663303 dt= 0.01839627 ====================================================================== ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 68 intensite 1.00000000 t= 1.62264929 dt= 0.02601626 ====================================================================== contact: reaction ==> F_N => [-129.23410024 : 0.00000000], F_T max = 0.00000000, [-0.00002500 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 80.13071782, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 129.23410024 max puissance interieurs = 129.23404727 max des reactions = 80.13071782 max du residu total = 0.02036074 **** Norme Residu/Reaction --> 0.00025409 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 69 intensite 1.00000000 t= 1.64866555 dt= 0.02601626 ====================================================================== contact: reaction ==> F_N => [-135.51084768 : 0.00000000], F_T max = 0.00000000, [-0.00002622 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 83.79390325, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 135.51084768 max puissance interieurs = 135.51078809 max des reactions = 83.79390325 max du residu total = 0.01856803 **** Norme Residu/Reaction --> 0.00022159 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 70 intensite 1.00000000 t= 1.67468181 dt= 0.02601626 ====================================================================== contact: reaction ==> F_N => [-141.78262725 : 0.00000000], F_T max = 0.00000000, [-0.00002743 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 87.42148818, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 141.78262725 max puissance interieurs = 141.78256171 max des reactions = 87.42148818 max du residu total = 0.01723911 **** Norme Residu/Reaction --> 0.00019720 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 71 intensite 1.00000000 t= 1.70069807 dt= 0.02601626 ====================================================================== contact: reaction ==> F_N => [-148.04763959 : 0.00000000], F_T max = 0.00000000, [-0.00002864 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 91.01119622, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 148.04763959 max puissance interieurs = 148.04757242 max des reactions = 91.01119622 max du residu total = 0.01298220 **** Norme Residu/Reaction --> 0.00014264 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 72 intensite 1.00000000 t= 1.73749062 dt= 0.03679255 ====================================================================== contact: reaction ==> F_N => [-156.89333608 : 0.00000000], F_T max = 0.00000000, [-0.00003035 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 96.01930706, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 156.89333608 max puissance interieurs = 156.89313907 max des reactions = 96.01930706 max du residu total = 0.01715654 **** Norme Residu/Reaction --> 0.00017868 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 73 intensite 1.00000000 t= 1.77428317 dt= 0.03679255 ====================================================================== contact: reaction ==> F_N => [-165.71927511 : 0.00000000], F_T max = 0.00000000, [-0.00003206 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 100.94277309, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 165.71927511 max puissance interieurs = 165.71900373 max des reactions = 100.94277309 max du residu total = 0.00998002 **** Norme Residu/Reaction --> 0.00009887 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 74 intensite 1.00000000 t= 1.81107572 dt= 0.03679255 ====================================================================== --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 17 (QUAD_AXI, LINEAIRE) mail. 2 --> nevez front 3 (dans le type) (FrontSegLine) de l'EF 23 (QUAD_AXI, LINEAIRE) mail. 2 -- renum pointeurs assemblage en tenant compte d'un changement de contact $$$ ==>> opti. glob. numerot. $$$ 1/2 larg. ddl ==> 38 larg. totale ==> 75 contact: reaction ==> F_N => [-174.52378219 : 0.00000000], F_T max = 0.00000000, [-0.00003377 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 105.77803477, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 174.52378219 max puissance interieurs = 174.52351302 max des reactions = 105.77803477 max du residu total = 0.01173770 **** Norme Residu/Reaction --> 0.00011097 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 75 intensite 1.00000000 t= 1.84786826 dt= 0.03679255 ====================================================================== contact: reaction ==> F_N => [-183.30705143 : 0.00000000], F_T max = 0.00000000, [-0.00003546 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 110.52305065, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 183.30705143 max puissance interieurs = 183.30678950 max des reactions = 110.52305065 max du residu total = 0.00651561 **** Norme Residu/Reaction --> 0.00005895 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 76 intensite 1.00000000 t= 1.89990078 dt= 0.05203252 ====================================================================== contact: reaction ==> F_N => [-195.69724832 : 0.00000000], F_T max = 0.00000000, [-0.00003786 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 117.07915927, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 195.69724832 max puissance interieurs = 195.69653687 max des reactions = 117.07915927 max du residu total = 0.01059285 **** Norme Residu/Reaction --> 0.00009048 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 77 intensite 1.00000000 t= 1.95193330 dt= 0.05203252 ====================================================================== contact: reaction ==> F_N => [-208.06312716 : 0.00000000], F_T max = 0.00000000, [-0.00004025 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 123.45830552, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 208.06312716 max puissance interieurs = 208.06223979 max des reactions = 123.45830552 max du residu total = 0.00410815 **** Norme Residu/Reaction --> 0.00003328 ======== fin du module de visualisation format Gmsh ======== ====================================================================== INCREMENT DE CHARGE : 78 intensite 1.00000000 t= 2.00000000 dt= 0.04806670 ====================================================================== contact: reaction ==> F_N => [-219.48414482 : 0.00000000], F_T max = 0.00000000, [-0.00004246 <= gap_N <= 0.00000000], [0.00000000 <= gap_T <= 0.00000000] ITERATION : 1 (assemblage 1) reaction maxi : 129.20323269, du ddl X2, du noeud/maillage 9/1 max puissance exterieure = 219.48414482 max puissance interieurs = 219.48353301 max des reactions = 129.20323269 max du residu total = 0.00548037 **** Norme Residu/Reaction --> 0.00004242 ======== fin du module de visualisation format Gmsh ======== >>>> temps fin (2.00000000) atteint <<<<< 2.00000000 temps_user:0/00:00:05.07 system:0/00:00:00.10 reel:0/00:00:05.15 ============================================================= | fin HEREZH++ | ============================================================= 5.077u 0.139s 0:05.39 96.4% 0+0k 0+0io 1378pf+0w => execution script hz_visuGmsh.pl -repair (voir calcul_Gmsh.script_repair.log)