*HEADING : *DSLOAD, *DSFLUX, *SFILM, AND *SRADIATION FOR COUPLED TEMP-DISP [CPE8RHT] *NODE,NSET=ALL 1, 1. 2, 8. 3, 8.,7. 4, 1.,7. 5, 4.5,0. 6, 8.,3.5 7, 4.5,7. 8, 1.,3.5 *NSET,NSET=FIX1 1,2 *NSET,NSET=FIX2 2,3 *NSET,NSET=FIX3 3,4 *NSET,NSET=FIX4 1,4 *ELEMENT, TYPE=CPE8RHT, ELSET=EALL 1, 1,2,3,4,5,6,7,8 *surface, NAME=SIDE_1 1, S1 *surface, NAME=SIDE_2 1, S2 *surface, NAME=SIDE_3 1, S3 *surface, NAME=SIDE_4 1, S4 *SOLID SECTION,MATERIAL=A1, ELSET=EALL, ORIENTATION=ORI *PHYSICAL CONSTANTS, ABSOLUTE ZERO=-460., STEFAN BOLTZMANN=5.E-08 *MATERIAL,NAME=A1 *ELASTIC 30.E6, .3 *EXPANSION 0., *CONDUCTIVITY 3.77E-5, *SPECIFIC HEAT .39, *DENSITY 82.9, *ORIENTATION,NAME=ORI 1.,0.,0.,0.,1.,0. 3,0. *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *BOUNDARY, OP=NEW ALL, 1,2 FIX3, 11 *DSFLUX,OP=NEW SIDE_1, S, .3 *ENERGY FILE *OUTPUT,HISTORY,FREQUENCY=1 *ENERGY OUTPUT,VARIABLE=PRESELECT *EL FILE LOADS,FLUXS FILM,RAD *NODE FILE RF, NT, RFL, *OUTPUT,FIELD *NODE OUTPUT RF, NT, RFL, *EL PRINT LOADS,FLUXS FILM,RAD *NODE PRINT RF, NT, RFL, *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *BOUNDARY, OP=NEW ALL, 1,2 FIX3, 11 *DSFLUX,OP=NEW SIDE_1, S, .3 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE .000001, .000001 *BOUNDARY, OP=NEW ALL, 1, 1, .00001 ALL, 2, 2, .000005 FIX4, 11 *DSFLUX,OP=NEW SIDE_2, S, .3 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *BOUNDARY, OP=NEW ALL, 1,2 FIX1, 11 *DSLOAD,OP=NEW SIDE_1, P, 100. SIDE_2, P, 200. SIDE_3, P, 300. SIDE_4, P, 400. *DSFLUX,OP=NEW SIDE_3, S, .3 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *BOUNDARY, OP=NEW ALL, 1,2 FIX2, 11 *DSLOAD,OP=NEW SIDE_1, HP, 3000., 3., 0. *DSFLUX,OP=NEW SIDE_4, S, .3 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *BOUNDARY, OP=NEW ALL, 1,2 FIX3, 11 *DSLOAD, OP=NEW SIDE_2, HP, 3000., 3., 0. *DSFLUX,OP=NEW *SFILM SIDE_1, F, 75., .103 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *SOLUTION TECHNIQUE,TYPE=SEPARATED *DSLOAD, OP=NEW SIDE_3, HP, 3000., 3., 0. *SFILM,OP=NEW SIDE_2, F, 75., .103 *BOUNDARY,OP=NEW ALL, 1,2 FIX4, 11 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *DSLOAD, OP=NEW SIDE_4, HP, 3000., 3., 0. *SFILM,OP=NEW SIDE_3, F, 75., .103 *BOUNDARY,OP=NEW ALL, 1,2 FIX1, 11 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *DSLOAD, OP=NEW *SFILM,OP=NEW SIDE_4, F, 75., .103 *BOUNDARY,OP=NEW ALL, 1,2 FIX2, 11 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *SFILM,OP=NEW *SRADIATE, OP=NEW SIDE_1, R, 75., 1.E-06 *BOUNDARY,OP=NEW ALL, 1,2 FIX3, 11 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *SRADIATE, OP=NEW SIDE_2, R, 75., 1.E-06 *BOUNDARY,OP=NEW ALL, 1,2 FIX4, 11 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *SRADIATE,OP=NEW SIDE_3, R, 75., 1.E-06 *BOUNDARY,OP=NEW ALL, 1,2 FIX1, 11 *END STEP *STEP *COUPLED TEMPERATURE-DISPLACEMENT, STEADY STATE 1., 1. *SRADIATE,OP=NEW SIDE_4, R, 75., 1.E-06 *BOUNDARY,OP=NEW ALL, 1,2 FIX2, 11 *END STEP