*Heading ** Job name: TEMP Model name: Model-1 ** ** PARTS ** *Part, name=PART-1 *End Part ** ** ASSEMBLY ** *Assembly, name=Assembly ** *Instance, name=PART-1-1, part=PART-1 *Node 1, 0., 0. 2, 10., 0. 3, 10., 10. 4, 0., 10. *Element, type=CPS4 1, 1, 2, 3, 4 *Elset, elset=PLANE 1, ** Region: (Section-1-PLANE:PLANE) *Elset, elset=_I1, internal 1, ** Section: Section-1-PLANE *Solid Section, elset=_I1, material=ELMAT 1., *ORIENTATION,NAME=REBAR1,DEFINITION=OFFSET TO NODES 4,2,3 3 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT1,NAME=RB1LAYR1 PLANE,.04,.25,0.,.25,2 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT1,NAME=RB1LAYR2 PLANE,.04,.25,0.,.5,2 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT1,NAME=RB1LAYR3 PLANE,.04,.25,0.,.75,2 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT2,NAME=RB2LAYR1 PLANE,.04,.25,0.,.25,1 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT2,NAME=RB2LAYR2 PLANE,.04,.25,0.,.5,1 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT2,NAME=RB2LAYR3 PLANE,.04,.25,0.,.75,1 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT3,GEOMETRY=SKEW,NAME=RB3LAYR1 PLANE,.04,.25,0. .5,.5 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT3,GEOMETRY=SKEW,NAME=RB3LAYR2 PLANE,.04,.25,0. 0.,1.,0.,1. *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT3,GEOMETRY=SKEW,NAME=RB3LAYR3 PLANE,.04,.25,0. 0.,0.,.5,.5 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT4,GEOMETRY=SKEW,NAME=RB4LAYR1 PLANE,.04,.25,0. .5,0.,0.,.5 *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT4,GEOMETRY=SKEW,NAME=RB4LAYR2 PLANE,.04,.25,0. 1.,0.,1. *REBAR,ELEMENT=CONTINUUM,MATERIAL=RBMAT4,GEOMETRY=SKEW,NAME=RB4LAYR3 PLANE,.04,.25,0. 0.,.5,.5 *End Instance *Nset, nset=BOT, instance=PART-1-1 1, 2 *Nset, nset=LEFT, instance=PART-1-1 1, 4 *Nset, nset=NALL, instance=PART-1-1, generate 1, 4, 1 *Elset, elset=__M6_S3, internal, instance=PART-1-1 1, *Surface, type=ELEMENT, name=_M6, internal __M6_S3, S3 *Elset, elset=__M7_S2, internal, instance=PART-1-1 1, *Surface, type=ELEMENT, name=_M7, internal __M7_S2, S2 *End Assembly ** ** MATERIALS ** *Material, name=ELMAT *Density 0.01, *Elastic 1.,0. *Material, name=RBMAT1 *Density 0.1, *Elastic 3e+07,0. *Material, name=RBMAT2 *Density 0.1, *Elastic 3e+07,0. *Material, name=RBMAT3 *Density 0.1, *Elastic 3e+07,0. *Material, name=RBMAT4 *Density 0.01, *Elastic 3e+07,0. ** ** BOUNDARY CONDITIONS ** ** Name: Disp-BC-1 Type: Displacement/Rotation *Boundary LEFT, 1, 1 ** Name: Disp-BC-2 Type: Displacement/Rotation *Boundary BOT, 2, 2 ** ---------------------------------------------------------------- ** ** STEP: Step-1 ** *Step, name=Step-1, perturbation *Frequency, eigensolver=Lanczos, SIM 4, ** ** OUTPUT REQUESTS ** *Restart, write, frequency=999 *Output, field *Element Output, Rebar S, E, *Node Output *El Print, freq=999999 *Node Print, freq=999999 *EL FILE, F=1 S, E, *EL FILE, REBAR, F=1 S, E, *NODE FILE, F=1 U, RF, *End Step ** ---------------------------------------------------------------- ** ** STEP: Step-2 ** *Step, name=Step-2, perturbation *Steady State Dynamics 120., 120., 20, 3., *Modal Damping 1, 4, 0.01 *SELECT EIGENMODES, GENERATE 1,4,1 ** ** LOADS ** ** Name: DISTFORCE-1 Type: Pressure *Dsload _M6, P, -1000. ** Name: DISTFORCE-2 Type: Pressure *Dsload _M7, P, -1000. ** ** OUTPUT REQUESTS ** *Restart, write, frequency=999 *MODAL PRINT GU,GPU SNE,KE,T *MODAL FILE GU,GPU SNE,KE,T ** ** FIELD OUTPUT: F-Output-1 ** *Output, field *Element Output S, E *Element Output, Rebar S, E, ** ** FIELD OUTPUT: F-Output-2 ** *Node Output U, RF ** ** HISTORY OUTPUT: H-Output-3 ** *Output, history *Modal Output SNE, KE, T *EL FILE, F=1 S, E, *EL FILE, REBAR, F=1 S, E, *NODE FILE, F=1 U, RF, *End Step