*Parameter x_a=300750.7033 z_a=99.9935 y_a=-300 x_b=300750.7033 z_b=99.9935 y_b=-299 x_c=299999.9834 z_c=99.74939 y_c=-300 *system ,, ,,, ,, *include, INPUT=wheel_3D.inp *include, INPUT=rail_3D.inp ** ** Constraint: feste_einspannung *Coupling, constraint name=feste_einspannung, ref node=rail_correct-1_rail_corner, surface=rail_correct-1_rail_bottom *Kinematic ** ** Constraint: innenfl_RP_const *Coupling, constraint name=innenfl_RP_const, ref node=wheel-1_wheel_center, surface=wheel-1_Achse *Kinematic ** ** MATERIALS ** *Material, name="Material wheel" *Density 7800.E-09, *Elastic 210000, 0.3 ** *Material, name="Material rail" *Density 7800.E-09, *Elastic 210000., 0.3 ** ** INTERACTION PROPERTIES ** *Surface Interaction, name=rail_wheel 1., *Friction 0., *Surface Behavior, penalty , , 10. ** ** ** INTERACTIONS ** ** Interaction: contact *Contact Pair, interaction=rail_wheel, type=SURFACE TO SURFACE rail_correct-1_rail_contact,wheel-1_wheel_contact ** ---------------------------------------------------------------- ** ** STEP: Step-1 ** *Step, CONVERT SDI=NO, name=Step-1, nlgeom=YES *Static 0.11, 1., 1e-05, 1. ** ** ** BOUNDARY CONDITIONS ** ** Name: feste_einspannung_rail Type: Symmetry/Antisymmetry/Encastre *Boundary rail_correct-1_rail_corner, 1,6 wheel-1_wheel_center, 1,1 wheel-1_wheel_center, 3,3 wheel-1_wheel_center, 4,4 wheel-1_wheel_center, 5,5 wheel-1_wheel_center, 6,6 ** ** LOADS ** ** Name: Last Type: Concentrated force *Cload wheel-1_wheel_center, 1, 30000. ** ** INTERACTIONS ** ** Contact Controls for Interaction: contact *Contact Controls, master=wheel-1_wheel_contact, slave=rail_correct-1_rail_contact, stabilize=1. ** ** OUTPUT REQUESTS ** ** ** FIELD OUTPUT: F-Output-1 ** *OUTPUT,FIELD,FREQ=100 *NODE OUTPUT U *ELEMENT OUTPUT S,LE *CONTACT OUTPUT CSTRESS,CDISP,CNAREA,CSTATUS ** ** HISTORY OUTPUT: H-Output-1 ** *Output, history, variable=PRESELECT, Frequency=100 *Contact Output, nset=rail_correct-1_rail_all CFS, CFN, CSTRESS, CAREA *End Step