1 Abaqus Version 6.7-EF1 Date 19-Aug-2009 Time 12:22:31 For use by Legends Never Die under license from Dassault Systemes or its subsidiary. STEP 1 INCREMENT 1 STEP TIME 0.00 S T E P 1 C O U P L E D - T E M P E R A T U R E - D I S P L A C E M E N T A N A L Y S I S STEADY STATE ANALYSIS AUTOMATIC TIME CONTROL WITH - A SUGGESTED INITIAL TIME INCREMENT OF 1.00 AND A TOTAL TIME PERIOD OF 1.00 THE MINIMUM TIME INCREMENT ALLOWED IS 1.000E-05 THE MAXIMUM TIME INCREMENT ALLOWED IS 1.00 CREEP AND SWELLING EFFECTS ARE OMITTED IN THIS STEP CREEP AND SWELLING EFFECTS WILL BE IGNORED. CONVERGENCE TOLERANCE PARAMETERS FOR FORCE CRITERION FOR RESIDUAL FORCE FOR A NONLINEAR PROBLEM 5.000E-03 CRITERION FOR DISP. CORRECTION IN A NONLINEAR PROBLEM 1.000E-02 INITIAL VALUE OF TIME AVERAGE FORCE 1.000E-02 AVERAGE FORCE IS TIME AVERAGE FORCE ALTERNATE CRIT. FOR RESIDUAL FORCE FOR A NONLINEAR PROBLEM 2.000E-02 CRITERION FOR ZERO FORCE RELATIVE TO TIME AVRG. FORCE 1.000E-05 CRITERION FOR RESIDUAL FORCE WHEN THERE IS ZERO FLUX 1.000E-05 CRITERION FOR DISP. CORRECTION WHEN THERE IS ZERO FLUX 1.000E-03 CRITERION FOR RESIDUAL FORCE FOR A LINEAR INCREMENT 1.000E-08 FIELD CONVERSION RATIO 1.00 CRITERION FOR ZERO FORCE REL. TO TIME AVRG. MAX. FORCE 1.000E-05 CRITERION FOR ZERO DISP. RELATIVE TO CHARACTERISTIC LENGTH 1.000E-08 CONVERGENCE TOLERANCE PARAMETERS FOR HEAT FLUX CRITERION FOR RESIDUAL HEAT FLUX FOR A NONLINEAR PROBLEM 5.000E-03 CRITERION FOR TEMP. CORRECTION IN A NONLINEAR PROBLEM 1.000E-02 INITIAL VALUE OF TIME AVERAGE HEAT FLUX 1.000E-02 AVERAGE HEAT FLUX IS TIME AVERAGE HEAT FLUX ALTERNATE CRIT. FOR RESIDUAL HEAT FLUX FOR A NONLINEAR PROBLEM 2.000E-02 CRITERION FOR ZERO HEAT FLUX RELATIVE TO TIME AVRG. HEAT FLUX 1.000E-05 CRITERION FOR RESIDUAL HEAT FLUX WHEN THERE IS ZERO FLUX 1.000E-05 CRITERION FOR TEMP. CORRECTION WHEN THERE IS ZERO FLUX 1.000E-03 CRITERION FOR RESIDUAL HEAT FLUX FOR A LINEAR INCREMENT 1.000E-08 FIELD CONVERSION RATIO 1.00 CRITERION FOR ZERO HEAT FLUX REL. TO TIME AVRG. MAX. HEAT FLUX 1.000E-05 VOLUMETRIC STRAIN COMPATIBILITY TOLERANCE FOR HYBRID SOLIDS 1.000E-05 AXIAL STRAIN COMPATIBILITY TOLERANCE FOR HYBRID BEAMS 1.000E-05 TRANS. SHEAR STRAIN COMPATIBILITY TOLERANCE FOR HYBRID BEAMS 1.000E-05 SOFT CONTACT CONSTRAINT COMPATIBILITY TOLERANCE FOR P>P0 5.000E-03 SOFT CONTACT CONSTRAINT COMPATIBILITY TOLERANCE FOR P=0.0 0.100 DISPLACEMENT COMPATIBILITY TOLERANCE FOR DCOUP ELEMENTS 1.000E-05 ROTATION COMPATIBILITY TOLERANCE FOR DCOUP ELEMENTS 1.000E-05 EQUILIBRIUM WILL BE CHECKED FOR SEVERE DISCONTINUITY ITERATIONS TIME INCREMENTATION CONTROL PARAMETERS: FIRST EQUILIBRIUM ITERATION FOR CONSECUTIVE DIVERGENCE CHECK 4 EQUILIBRIUM ITERATION AT WHICH LOG. CONVERGENCE RATE CHECK BEGINS 8 EQUILIBRIUM ITERATION AFTER WHICH ALTERNATE RESIDUAL IS USED 9 MAXIMUM EQUILIBRIUM ITERATIONS ALLOWED 16 EQUILIBRIUM ITERATION COUNT FOR CUT-BACK IN NEXT INCREMENT 10 MAXIMUM EQUILIB. ITERS IN TWO INCREMENTS FOR TIME INCREMENT INCREASE 4 MAXIMUM ITERATIONS FOR SEVERE DISCONTINUITIES 50 MAXIMUM CUT-BACKS ALLOWED IN AN INCREMENT 5 CUT-BACK FACTOR AFTER DIVERGENCE 0.2500 CUT-BACK FACTOR FOR TOO SLOW CONVERGENCE 0.5000 CUT-BACK FACTOR AFTER TOO MANY EQUILIBRIUM ITERATIONS 0.7500 CUT-BACK FACTOR AFTER TOO MANY SEVERE DISCONTINUITY ITERATIONS 0.2500 CUT-BACK FACTOR AFTER PROBLEMS IN ELEMENT ASSEMBLY 0.2500 INCREASE FACTOR AFTER TWO INCREMENTS THAT CONVERGE QUICKLY 1.500 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED 1.500 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED (DYNAMICS) 1.250 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED (DIFFUSION) 2.000 MINIMUM TIME INCREMENT RATIO FOR EXTRAPOLATION TO OCCUR 0.1000 MAX. RATIO OF TIME INCREMENT TO STABILITY LIMIT 1.000 FRACTION OF STABILITY LIMIT FOR NEW TIME INCREMENT 0.9500 TIME INCREMENT INCREASE FACTOR BEFORE A TIME POINT 1.000 AUTOMATIC TOLERANCES FOR OVERCLOSURE AND SEPARATION PRESSURE ARE SUPPRESSED GLOBAL STABILIZATION CONTROL IS NOT USED FRICTION IS INCLUDED IN INCREMENT THAT THE CONTACT POINT CLOSES PRINT OF INCREMENT NUMBER, TIME, ETC., EVERY 1 INCREMENTS THE MAXIMUM NUMBER OF INCREMENTS IN THIS STEP IS 100 LARGE DISPLACEMENT THEORY WILL BE USED UNSYMMETRIC MATRIX STORAGE AND SOLUTION WILL BE USED LINEAR EXTRAPOLATION WILL BE USED CHARACTERISTIC ELEMENT LENGTH 4.70 DETAILED OUTPUT OF DIAGNOSTICS TO DATABASE REQUESTED PRINT OF INCREMENT NUMBER, TIME, ETC., TO THE MESSAGE FILE EVERY 1 INCREMENTS EQUATIONS ARE BEING REORDERED TO MINIMIZE WAVEFRONT COLLECTING MODEL CONSTRAINT INFORMATION FOR OVERCONSTRAINT CHECKS COLLECTING STEP CONSTRAINT INFORMATION FOR OVERCONSTRAINT CHECKS INCREMENT 1 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 ***WARNING: SOLVER PROBLEM. NUMERICAL SINGULARITY WHEN PROCESSING NODE DRUCKBEHAELTER-1.5 D.O.F. 11 RATIO = 1.30975E+015. CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 79.7 TIME AVG. FORCE 79.7 LARGEST RESIDUAL FORCE -57.2 AT NODE 142 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -0.135 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -0.135 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 FORCE EQUILIBRIUM NOT ACHIEVED WITHIN TOLERANCE. AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE ***WARNING: THE SYSTEM MATRIX HAS 1 NEGATIVE EIGENVALUES. IN AN EIGENVALUE EXTRACTION STEP THE NUMBER OF NEGATIVE EIGENVALUES IS EQUAL TO THE NUMBER OF EIGENVALUES BELOW THE CURRENT SHIFT POINT. THIS MAY BE USED TO CHECK THAT EIGENVALUES HAVE NOT BEEN MISSED. NOTE: THE LANCZOS EIGENSOLVER APPLIES AN INTERNAL SHIFT WHICH WILL RESULT IN NEGATIVE EIGENVALUES. IN A DIRECT-SOLUTION STEADY-STATE DYNAMIC ANALYSIS, NEGATIVE EIGENVALUES ARE EXPECTED. A STATIC ANALYSIS CAN BE USED TO VERIFY THAT THE SYSTEM IS STABLE. IN OTHER CASES, NEGATIVE EIGENVALUES MEAN THAT THE SYSTEM MATRIX IS NOT POSITIVE DEFINITE: FOR EXAMPLE, A BIFURCATION (BUCKLING) LOAD MAY HAVE BEEN EXCEEDED. NEGATIVE EIGENVALUES MAY ALSO OCCUR IF QUADRATIC ELEMENTS ARE USED TO DEFINE CONTACT SURFACES. ***WARNING: SOLVER PROBLEM. NUMERICAL SINGULARITY WHEN PROCESSING NODE DRUCKBEHAELTER-1.5 D.O.F. 11 RATIO = 2.51209E+014. CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 2 AVERAGE FORCE 79.6 TIME AVG. FORCE 79.6 LARGEST RESIDUAL FORCE -6.256E-02 AT NODE 392 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -0.134 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 1.371E-03 AT NODE 67 DOF 3 INSTANCE: DRUCKBEHAELTER-1 ESTIMATE OF DISP. CORRECTION 1.500E-06 FORCE EQUILIB. ACCEPTED BASED ON SMALL RESIDUAL AND ESTIMATED CORRECTION AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE ITERATION SUMMARY FOR THE INCREMENT: 2 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 2 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 1.00 STEP TIME COMPLETED 1.00 , TOTAL TIME COMPLETED 1.00 1 Abaqus Version 6.7-EF1 Date 19-Aug-2009 Time 12:22:40 For use by Legends Never Die under license from Dassault Systemes or its subsidiary. STEP 2 INCREMENT 1 STEP TIME 0.00 S T E P 2 C O U P L E D - T E M P E R A T U R E - D I S P L A C E M E N T A N A L Y S I S AUTOMATIC TIME CONTROL WITH - A SUGGESTED INITIAL TIME INCREMENT OF 1.00 AND A TOTAL TIME PERIOD OF 20.0 THE MINIMUM TIME INCREMENT ALLOWED IS 6.000E-04 THE MAXIMUM TIME INCREMENT ALLOWED IS 1.00 CREEP AND SWELLING EFFECTS ARE OMITTED IN THIS STEP THE SIZE OF THE TIME INCREMENT IS CONTROLLED BY - THE TEMPERATURE CHANGE PER INCREMENT NOT EXCEEDING 80.0 CREEP AND SWELLING EFFECTS WILL BE IGNORED. CONVERGENCE TOLERANCE PARAMETERS FOR FORCE CRITERION FOR RESIDUAL FORCE FOR A NONLINEAR PROBLEM 5.000E-03 CRITERION FOR DISP. CORRECTION IN A NONLINEAR PROBLEM 1.000E-02 INIT. VALUE OF TIME AVG. FORCE IS TIME AVG. FORCE IN PREVIOUS STEP AVERAGE FORCE IS TIME AVERAGE FORCE ALTERNATE CRIT. FOR RESIDUAL FORCE FOR A NONLINEAR PROBLEM 2.000E-02 CRITERION FOR ZERO FORCE RELATIVE TO TIME AVRG. FORCE 1.000E-05 CRITERION FOR RESIDUAL FORCE WHEN THERE IS ZERO FLUX 1.000E-05 CRITERION FOR DISP. CORRECTION WHEN THERE IS ZERO FLUX 1.000E-03 CRITERION FOR RESIDUAL FORCE FOR A LINEAR INCREMENT 1.000E-08 FIELD CONVERSION RATIO 1.00 CRITERION FOR ZERO FORCE REL. TO TIME AVRG. MAX. FORCE 1.000E-05 CRITERION FOR ZERO DISP. RELATIVE TO CHARACTERISTIC LENGTH 1.000E-08 CONVERGENCE TOLERANCE PARAMETERS FOR HEAT FLUX CRITERION FOR RESIDUAL HEAT FLUX FOR A NONLINEAR PROBLEM 5.000E-03 CRITERION FOR TEMP. CORRECTION IN A NONLINEAR PROBLEM 1.000E-02 INIT. VALUE OF TIME AVG. HEAT FLUX IS TIME AVG. HEAT FLUX IN PREVIOUS STEP AVERAGE HEAT FLUX IS TIME AVERAGE HEAT FLUX ALTERNATE CRIT. FOR RESIDUAL HEAT FLUX FOR A NONLINEAR PROBLEM 2.000E-02 CRITERION FOR ZERO HEAT FLUX RELATIVE TO TIME AVRG. HEAT FLUX 1.000E-05 CRITERION FOR RESIDUAL HEAT FLUX WHEN THERE IS ZERO FLUX 1.000E-05 CRITERION FOR TEMP. CORRECTION WHEN THERE IS ZERO FLUX 1.000E-03 CRITERION FOR RESIDUAL HEAT FLUX FOR A LINEAR INCREMENT 1.000E-08 FIELD CONVERSION RATIO 1.00 CRITERION FOR ZERO HEAT FLUX REL. TO TIME AVRG. MAX. HEAT FLUX 1.000E-05 VOLUMETRIC STRAIN COMPATIBILITY TOLERANCE FOR HYBRID SOLIDS 1.000E-05 AXIAL STRAIN COMPATIBILITY TOLERANCE FOR HYBRID BEAMS 1.000E-05 TRANS. SHEAR STRAIN COMPATIBILITY TOLERANCE FOR HYBRID BEAMS 1.000E-05 SOFT CONTACT CONSTRAINT COMPATIBILITY TOLERANCE FOR P>P0 5.000E-03 SOFT CONTACT CONSTRAINT COMPATIBILITY TOLERANCE FOR P=0.0 0.100 DISPLACEMENT COMPATIBILITY TOLERANCE FOR DCOUP ELEMENTS 1.000E-05 ROTATION COMPATIBILITY TOLERANCE FOR DCOUP ELEMENTS 1.000E-05 EQUILIBRIUM WILL BE CHECKED FOR SEVERE DISCONTINUITY ITERATIONS TIME INCREMENTATION CONTROL PARAMETERS: FIRST EQUILIBRIUM ITERATION FOR CONSECUTIVE DIVERGENCE CHECK 4 EQUILIBRIUM ITERATION AT WHICH LOG. CONVERGENCE RATE CHECK BEGINS 8 EQUILIBRIUM ITERATION AFTER WHICH ALTERNATE RESIDUAL IS USED 9 MAXIMUM EQUILIBRIUM ITERATIONS ALLOWED 16 EQUILIBRIUM ITERATION COUNT FOR CUT-BACK IN NEXT INCREMENT 10 MAXIMUM EQUILIB. ITERS IN TWO INCREMENTS FOR TIME INCREMENT INCREASE 4 MAXIMUM ITERATIONS FOR SEVERE DISCONTINUITIES 50 MAXIMUM CUT-BACKS ALLOWED IN AN INCREMENT 5 CONSECUTIVE INCS MEETING TIME INTEG. TOL. FOR TIME INC. INCREASE 3 CUT-BACK FACTOR AFTER DIVERGENCE 0.2500 CUT-BACK FACTOR FOR TOO SLOW CONVERGENCE 0.5000 CUT-BACK FACTOR AFTER TOO MANY EQUILIBRIUM ITERATIONS 0.7500 CUT-BACK FACTOR AFTER TOO MANY SEVERE DISCONTINUITY ITERATIONS 0.2500 CUT-BACK FACTOR AFTER PROBLEMS IN ELEMENT ASSEMBLY 0.2500 INCREASE FACTOR AFTER TWO INCREMENTS THAT CONVERGE QUICKLY 1.500 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED 1.500 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED (DYNAMICS) 1.250 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED (DIFFUSION) 2.000 MINIMUM TIME INCREMENT RATIO FOR EXTRAPOLATION TO OCCUR 0.1000 CUT-BACK FACTOR WHEN TIME INTEGRATION ACCURACY TOL. EXCEEDED 0.8500 MAX. RATIO OF TIME INTEG. MEASURE TO TOL. FOR TIME INC. INCREASE 0.7500 INCREASE FACTOR FOR TIME INCREMENT WHEN POSSIBLE 0.8000 MIN. TIME INC. INCREASE FACTOR IN LINEAR TRANSIENT PROBLEMS 0.9500 MAX. RATIO OF TIME INCREMENT TO STABILITY LIMIT 1.000 FRACTION OF STABILITY LIMIT FOR NEW TIME INCREMENT 0.9500 TIME INCREMENT INCREASE FACTOR BEFORE A TIME POINT 1.000 AUTOMATIC TOLERANCES FOR OVERCLOSURE AND SEPARATION PRESSURE ARE SUPPRESSED GLOBAL STABILIZATION CONTROL IS NOT USED FRICTION IS INCLUDED IN INCREMENT THAT THE CONTACT POINT CLOSES PRINT OF INCREMENT NUMBER, TIME, ETC., EVERY 1 INCREMENTS THE MAXIMUM NUMBER OF INCREMENTS IN THIS STEP IS 100 LARGE DISPLACEMENT THEORY WILL BE USED UNSYMMETRIC MATRIX STORAGE AND SOLUTION WILL BE USED EXTRAPOLATION WILL NOT BE USED CHARACTERISTIC ELEMENT LENGTH 4.70 DETAILED OUTPUT OF DIAGNOSTICS TO DATABASE REQUESTED PRINT OF INCREMENT NUMBER, TIME, ETC., TO THE MESSAGE FILE EVERY 1 INCREMENTS COLLECTING STEP CONSTRAINT INFORMATION FOR OVERCONSTRAINT CHECKS INCREMENT 1 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.3 TIME AVG. FORCE 78.3 LARGEST RESIDUAL FORCE -1.825E-05 AT NODE 392 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 1.410E-06 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 1.410E-06 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 ESTIMATE OF DISP. CORRECTION 4.114E-10 FORCE EQUILIB. ACCEPTED BASED ON SMALL RESIDUAL AND ESTIMATED CORRECTION AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 5.000E-02 STEP TIME COMPLETED 1.00 , TOTAL TIME COMPLETED 2.00 INCREMENT 2 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE 2.081E-08 AT NODE 392 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -1.632E-10 AT NODE 67 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -1.632E-10 AT NODE 67 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.100 STEP TIME COMPLETED 2.00 , TOTAL TIME COMPLETED 3.00 INCREMENT 3 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -1.272E-10 AT NODE 549 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -7.741E-14 AT NODE 16 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -7.741E-14 AT NODE 16 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.150 STEP TIME COMPLETED 3.00 , TOTAL TIME COMPLETED 4.00 INCREMENT 4 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE 3.693E-11 AT NODE 45 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 3.091E-15 AT NODE 40 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 3.091E-15 AT NODE 40 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.200 STEP TIME COMPLETED 4.00 , TOTAL TIME COMPLETED 5.00 INCREMENT 5 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -2.101E-11 AT NODE 488 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -1.919E-15 AT NODE 423 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -1.919E-15 AT NODE 423 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.250 STEP TIME COMPLETED 5.00 , TOTAL TIME COMPLETED 6.00 INCREMENT 6 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -2.227E-11 AT NODE 85 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 1.302E-15 AT NODE 409 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 1.302E-15 AT NODE 409 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.300 STEP TIME COMPLETED 6.00 , TOTAL TIME COMPLETED 7.00 INCREMENT 7 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -2.153E-11 AT NODE 9 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -1.396E-15 AT NODE 416 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -1.396E-15 AT NODE 416 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.350 STEP TIME COMPLETED 7.00 , TOTAL TIME COMPLETED 8.00 INCREMENT 8 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -8.640E-12 AT NODE 169 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 9.645E-16 AT NODE 415 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 9.645E-16 AT NODE 415 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.400 STEP TIME COMPLETED 8.00 , TOTAL TIME COMPLETED 9.00 INCREMENT 9 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE 1.057E-11 AT NODE 169 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -2.259E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -2.259E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.450 STEP TIME COMPLETED 9.00 , TOTAL TIME COMPLETED 10.0 INCREMENT 10 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -1.037E-11 AT NODE 169 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 2.974E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 2.974E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.500 STEP TIME COMPLETED 10.0 , TOTAL TIME COMPLETED 11.0 INCREMENT 11 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -9.663E-12 AT NODE 140 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -2.943E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -2.943E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.550 STEP TIME COMPLETED 11.0 , TOTAL TIME COMPLETED 12.0 INCREMENT 12 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE 9.607E-12 AT NODE 140 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 3.016E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 3.016E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.600 STEP TIME COMPLETED 12.0 , TOTAL TIME COMPLETED 13.0 INCREMENT 13 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE 9.294E-12 AT NODE 169 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -3.301E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -3.301E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.650 STEP TIME COMPLETED 13.0 , TOTAL TIME COMPLETED 14.0 INCREMENT 14 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE 1.670E-11 AT NODE 100 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 2.361E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 2.361E-16 AT NODE 31 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.700 STEP TIME COMPLETED 14.0 , TOTAL TIME COMPLETED 15.0 INCREMENT 15 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -1.055E-11 AT NODE 100 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 6.455E-16 AT NODE 15 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 6.455E-16 AT NODE 15 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.750 STEP TIME COMPLETED 15.0 , TOTAL TIME COMPLETED 16.0 INCREMENT 16 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE 1.080E-11 AT NODE 140 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 2.758E-16 AT NODE 78 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 2.758E-16 AT NODE 78 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.800 STEP TIME COMPLETED 16.0 , TOTAL TIME COMPLETED 17.0 INCREMENT 17 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.4 LARGEST RESIDUAL FORCE -5.429E-12 AT NODE 539 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 3.309E-16 AT NODE 24 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 3.309E-16 AT NODE 24 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.850 STEP TIME COMPLETED 17.0 , TOTAL TIME COMPLETED 18.0 INCREMENT 18 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.5 LARGEST RESIDUAL FORCE -1.035E-11 AT NODE 140 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -2.111E-16 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -2.111E-16 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.900 STEP TIME COMPLETED 18.0 , TOTAL TIME COMPLETED 19.0 INCREMENT 19 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.5 LARGEST RESIDUAL FORCE -1.274E-11 AT NODE 78 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -3.436E-16 AT NODE 24 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -3.436E-16 AT NODE 24 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 0.950 STEP TIME COMPLETED 19.0 , TOTAL TIME COMPLETED 20.0 INCREMENT 20 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 78.5 TIME AVG. FORCE 78.5 LARGEST RESIDUAL FORCE 1.077E-11 AT NODE 78 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. 8.021E-16 AT NODE 15 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 8.021E-16 AT NODE 15 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM RESPONSE WAS LINEAR IN THIS INCREMENT AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE MAXIMUM NON-PRESCRIBED INCREMENT IN TEMPERATURE IS 0.00 ITERATION SUMMARY FOR THE INCREMENT: 1 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 1 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 1.00 STEP TIME COMPLETED 20.0 , TOTAL TIME COMPLETED 21.0 1 Abaqus Version 6.7-EF1 Date 19-Aug-2009 Time 12:24:06 For use by Legends Never Die under license from Dassault Systemes or its subsidiary. STEP 3 INCREMENT 1 STEP TIME 0.00 S T E P 3 C O U P L E D - T E M P E R A T U R E - D I S P L A C E M E N T A N A L Y S I S STEADY STATE ANALYSIS AUTOMATIC TIME CONTROL WITH - A SUGGESTED INITIAL TIME INCREMENT OF 1.00 AND A TOTAL TIME PERIOD OF 1.00 THE MINIMUM TIME INCREMENT ALLOWED IS 1.000E-05 THE MAXIMUM TIME INCREMENT ALLOWED IS 1.00 CREEP AND SWELLING EFFECTS ARE OMITTED IN THIS STEP CREEP AND SWELLING EFFECTS WILL BE IGNORED. CONVERGENCE TOLERANCE PARAMETERS FOR FORCE CRITERION FOR RESIDUAL FORCE FOR A NONLINEAR PROBLEM 5.000E-03 CRITERION FOR DISP. CORRECTION IN A NONLINEAR PROBLEM 1.000E-02 INIT. VALUE OF TIME AVG. FORCE IS TIME AVG. FORCE IN PREVIOUS STEP AVERAGE FORCE IS TIME AVERAGE FORCE ALTERNATE CRIT. FOR RESIDUAL FORCE FOR A NONLINEAR PROBLEM 2.000E-02 CRITERION FOR ZERO FORCE RELATIVE TO TIME AVRG. FORCE 1.000E-05 CRITERION FOR RESIDUAL FORCE WHEN THERE IS ZERO FLUX 1.000E-05 CRITERION FOR DISP. CORRECTION WHEN THERE IS ZERO FLUX 1.000E-03 CRITERION FOR RESIDUAL FORCE FOR A LINEAR INCREMENT 1.000E-08 FIELD CONVERSION RATIO 1.00 CRITERION FOR ZERO FORCE REL. TO TIME AVRG. MAX. FORCE 1.000E-05 CRITERION FOR ZERO DISP. RELATIVE TO CHARACTERISTIC LENGTH 1.000E-08 CONVERGENCE TOLERANCE PARAMETERS FOR HEAT FLUX CRITERION FOR RESIDUAL HEAT FLUX FOR A NONLINEAR PROBLEM 5.000E-03 CRITERION FOR TEMP. CORRECTION IN A NONLINEAR PROBLEM 1.000E-02 INIT. VALUE OF TIME AVG. HEAT FLUX IS TIME AVG. HEAT FLUX IN PREVIOUS STEP AVERAGE HEAT FLUX IS TIME AVERAGE HEAT FLUX ALTERNATE CRIT. FOR RESIDUAL HEAT FLUX FOR A NONLINEAR PROBLEM 2.000E-02 CRITERION FOR ZERO HEAT FLUX RELATIVE TO TIME AVRG. HEAT FLUX 1.000E-05 CRITERION FOR RESIDUAL HEAT FLUX WHEN THERE IS ZERO FLUX 1.000E-05 CRITERION FOR TEMP. CORRECTION WHEN THERE IS ZERO FLUX 1.000E-03 CRITERION FOR RESIDUAL HEAT FLUX FOR A LINEAR INCREMENT 1.000E-08 FIELD CONVERSION RATIO 1.00 CRITERION FOR ZERO HEAT FLUX REL. TO TIME AVRG. MAX. HEAT FLUX 1.000E-05 VOLUMETRIC STRAIN COMPATIBILITY TOLERANCE FOR HYBRID SOLIDS 1.000E-05 AXIAL STRAIN COMPATIBILITY TOLERANCE FOR HYBRID BEAMS 1.000E-05 TRANS. SHEAR STRAIN COMPATIBILITY TOLERANCE FOR HYBRID BEAMS 1.000E-05 SOFT CONTACT CONSTRAINT COMPATIBILITY TOLERANCE FOR P>P0 5.000E-03 SOFT CONTACT CONSTRAINT COMPATIBILITY TOLERANCE FOR P=0.0 0.100 DISPLACEMENT COMPATIBILITY TOLERANCE FOR DCOUP ELEMENTS 1.000E-05 ROTATION COMPATIBILITY TOLERANCE FOR DCOUP ELEMENTS 1.000E-05 EQUILIBRIUM WILL BE CHECKED FOR SEVERE DISCONTINUITY ITERATIONS TIME INCREMENTATION CONTROL PARAMETERS: FIRST EQUILIBRIUM ITERATION FOR CONSECUTIVE DIVERGENCE CHECK 4 EQUILIBRIUM ITERATION AT WHICH LOG. CONVERGENCE RATE CHECK BEGINS 8 EQUILIBRIUM ITERATION AFTER WHICH ALTERNATE RESIDUAL IS USED 9 MAXIMUM EQUILIBRIUM ITERATIONS ALLOWED 16 EQUILIBRIUM ITERATION COUNT FOR CUT-BACK IN NEXT INCREMENT 10 MAXIMUM EQUILIB. ITERS IN TWO INCREMENTS FOR TIME INCREMENT INCREASE 4 MAXIMUM ITERATIONS FOR SEVERE DISCONTINUITIES 50 MAXIMUM CUT-BACKS ALLOWED IN AN INCREMENT 5 CUT-BACK FACTOR AFTER DIVERGENCE 0.2500 CUT-BACK FACTOR FOR TOO SLOW CONVERGENCE 0.5000 CUT-BACK FACTOR AFTER TOO MANY EQUILIBRIUM ITERATIONS 0.7500 CUT-BACK FACTOR AFTER TOO MANY SEVERE DISCONTINUITY ITERATIONS 0.2500 CUT-BACK FACTOR AFTER PROBLEMS IN ELEMENT ASSEMBLY 0.2500 INCREASE FACTOR AFTER TWO INCREMENTS THAT CONVERGE QUICKLY 1.500 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED 1.500 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED (DYNAMICS) 1.250 MAX. TIME INCREMENT INCREASE FACTOR ALLOWED (DIFFUSION) 2.000 MINIMUM TIME INCREMENT RATIO FOR EXTRAPOLATION TO OCCUR 0.1000 MAX. RATIO OF TIME INCREMENT TO STABILITY LIMIT 1.000 FRACTION OF STABILITY LIMIT FOR NEW TIME INCREMENT 0.9500 TIME INCREMENT INCREASE FACTOR BEFORE A TIME POINT 1.000 AUTOMATIC TOLERANCES FOR OVERCLOSURE AND SEPARATION PRESSURE ARE SUPPRESSED GLOBAL STABILIZATION CONTROL IS NOT USED FRICTION IS INCLUDED IN INCREMENT THAT THE CONTACT POINT CLOSES PRINT OF INCREMENT NUMBER, TIME, ETC., EVERY 1 INCREMENTS THE MAXIMUM NUMBER OF INCREMENTS IN THIS STEP IS 100 LARGE DISPLACEMENT THEORY WILL BE USED UNSYMMETRIC MATRIX STORAGE AND SOLUTION WILL BE USED LINEAR EXTRAPOLATION WILL BE USED CHARACTERISTIC ELEMENT LENGTH 4.70 DETAILED OUTPUT OF DIAGNOSTICS TO DATABASE REQUESTED PRINT OF INCREMENT NUMBER, TIME, ETC., TO THE MESSAGE FILE EVERY 1 INCREMENTS COLLECTING STEP CONSTRAINT INFORMATION FOR OVERCONSTRAINT CHECKS INCREMENT 1 STARTS. ATTEMPT NUMBER 1, TIME INCREMENT 1.00 ***WARNING: SOLVER PROBLEM. NUMERICAL SINGULARITY WHEN PROCESSING NODE DRUCKBEHAELTER-1.5 D.O.F. 11 RATIO = 8.98932E+013. CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 1 AVERAGE FORCE 481. TIME AVG. FORCE 481. LARGEST RESIDUAL FORCE 3.667E+04 AT NODE 1248 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -4.55 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -4.55 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 FORCE EQUILIBRIUM NOT ACHIEVED WITHIN TOLERANCE. AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE ***WARNING: SOLVER PROBLEM. NUMERICAL SINGULARITY WHEN PROCESSING NODE DRUCKBEHAELTER-1.5 D.O.F. 11 RATIO = 2.93749E+014. CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 2 AVERAGE FORCE 271. TIME AVG. FORCE 271. LARGEST RESIDUAL FORCE 354. AT NODE 1275 DOF 1 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -4.09 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 0.459 AT NODE 67 DOF 3 INSTANCE: DRUCKBEHAELTER-1 FORCE EQUILIBRIUM NOT ACHIEVED WITHIN TOLERANCE. AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE ***WARNING: SOLVER PROBLEM. NUMERICAL SINGULARITY WHEN PROCESSING NODE DRUCKBEHAELTER-1.5 D.O.F. 11 RATIO = 1.18938E+014. CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 3 AVERAGE FORCE 257. TIME AVG. FORCE 257. LARGEST RESIDUAL FORCE -209. AT NODE 1313 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -3.79 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 0.305 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 FORCE EQUILIBRIUM NOT ACHIEVED WITHIN TOLERANCE. AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE ***WARNING: SOLVER PROBLEM. NUMERICAL SINGULARITY WHEN PROCESSING NODE DRUCKBEHAELTER-1.5 D.O.F. 11 RATIO = 1.9578E+014. CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 4 AVERAGE FORCE 256. TIME AVG. FORCE 256. LARGEST RESIDUAL FORCE 4.12 AT NODE 1210 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -3.78 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. 9.845E-03 AT NODE 67 DOF 3 INSTANCE: DRUCKBEHAELTER-1 FORCE EQUILIBRIUM NOT ACHIEVED WITHIN TOLERANCE. AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE ***WARNING: SOLVER PROBLEM. NUMERICAL SINGULARITY WHEN PROCESSING NODE DRUCKBEHAELTER-1.5 D.O.F. 11 RATIO = 1.65524E+015. CONVERGENCE CHECKS FOR EQUILIBRIUM ITERATION 5 AVERAGE FORCE 256. TIME AVG. FORCE 256. LARGEST RESIDUAL FORCE 0.202 AT NODE 1279 DOF 1 INSTANCE: DRUCKBEHAELTER-1 LARGEST INCREMENT OF DISP. -3.78 AT NODE 68 DOF 3 INSTANCE: DRUCKBEHAELTER-1 LARGEST CORRECTION TO DISP. -1.120E-04 AT NODE 67 DOF 3 INSTANCE: DRUCKBEHAELTER-1 THE FORCE EQUILIBRIUM EQUATIONS HAVE CONVERGED AVERAGE HEAT FLUX 0.00 TIME AVG. HEAT FLUX 1.000E-02 ALL HEAT FLUX RESIDUALS ARE ZERO ALL TEMP. INCREMENTS ARE ZERO ALL CORRECTION TO TEMP. ARE ZERO THERE IS ZERO HEAT FLUX EVERYWHERE ITERATION SUMMARY FOR THE INCREMENT: 5 TOTAL ITERATIONS, OF WHICH 0 ARE SEVERE DISCONTINUITY ITERATIONS AND 5 ARE EQUILIBRIUM ITERATIONS. TIME INCREMENT COMPLETED 1.00 , FRACTION OF STEP COMPLETED 1.00 STEP TIME COMPLETED 1.00 , TOTAL TIME COMPLETED 22.0 THE ANALYSIS HAS BEEN COMPLETED ANALYSIS SUMMARY: TOTAL OF 22 INCREMENTS 0 CUTBACKS IN AUTOMATIC INCREMENTATION 27 ITERATIONS INCLUDING CONTACT ITERATIONS IF PRESENT 27 PASSES THROUGH THE EQUATION SOLVER OF WHICH 27 INVOLVE MATRIX DECOMPOSITION, INCLUDING 0 DECOMPOSITION(S) OF THE MASS MATRIX 1 REORDERING OF EQUATIONS TO MINIMIZE WAVEFRONT 0 ADDITIONAL RESIDUAL EVALUATIONS FOR LINE SEARCHES 0 ADDITIONAL OPERATOR EVALUATIONS FOR LINE SEARCHES 717 WARNING MESSAGES DURING USER INPUT PROCESSING 8 WARNING MESSAGES DURING ANALYSIS 7 ANALYSIS WARNINGS ARE NUMERICAL PROBLEM MESSAGES 1 ANALYSIS WARNINGS ARE NEGATIVE EIGENVALUE MESSAGES 0 ERROR MESSAGES JOB TIME SUMMARY USER TIME (SEC) = 66.800 SYSTEM TIME (SEC) = 3.9000 TOTAL CPU TIME (SEC) = 70.700 WALLCLOCK TIME (SEC) = 111