• 【转载】ANSYS完全法与模态叠加法瞬态分析实例


    原文地址:http://www.caetecc.com/thread-2172-1-1.html

    ! 半脉冲载荷 --- 模态叠加法
    fini
    /clear,nostart
    /PREP7
    ET,1,BEAM4             
    MP,EX,1,110E9   
    MP,NUXY,1,0.3
    MP,DENS,1,1600
    R,1,0.000045,3.75e-12,8.44e-10,0.015,0.003,0    
    k,1,0,0
    k,2,0.2,0
    LSTR,       1,       2
    LATT,1,1,1, , , , 
    lsel,all
    LESIZE,all, , ,100, , , , ,1
    lmesh,all
    FINISH
    /solu
    antype,2
    d,1,all
    modopt,lanb,50
    solve
    fini

    /solu
    plusetime=0.01
    pi=3.1415926
    delt_time=0.0001
    antype,trans
    trnopt,msup,50
    deltim,delt_time
    d,1,all
    time,0
    f,101,fz,0
    kbc,1
    autots,off
    solve
    *DO,j,1,plusetime/delt_time
      TIME,delt_time*j
      KBC,0  
      autots,off
      F,101,FY,-500*sin(delt_time*j*pi*100)
      solve
    *enddo
    TIME,10
    autots,on
    F,101,FY,0 
    solve



    ! 脉冲载荷 --- 模态叠加法
    fini
    /clear,nostart
    /PREP7
    ET,1,BEAM4             
    MP,EX,1,110E9   
    MP,NUXY,1,0.3
    MP,DENS,1,1600
    R,1,0.000045,3.75e-12,8.44e-10,0.015,0.003,0    
    k,1,0,0
    k,2,0.2,0
    LSTR,       1,       2
    LATT,1,1,1, , , , 
    lsel,all
    LESIZE,all, , ,100, , , , ,1
    lmesh,all
    FINISH
    /solu
    antype,2
    d,1,all
    modopt,lanb,100
    solve
    fini

    /solu
    plusetime=0.01
    pi=3.1415926
    delt_time=0.0001
    antype,trans
    trnopt,msup,100
    deltim,delt_time
    d,1,all
    time,0
    f,mid_node,fz,0
    kbc,1
    autots,off
    solve
    *DO,j,1,plusetime/delt_time
      TIME,delt_time*j
      KBC,0  
      autots,off
      F,101,FY,500
      solve
    *enddo
    TIME,1
    autots,on
    F,101,FY,0 
    solve


    ! full method
    fini
    /clear,nostart
    /PREP7
    ET,1,BEAM4             
    MP,EX,1,110E9   
    MP,NUXY,1,0.3
    MP,DENS,1,1600
    R,1,0.000045,3.75e-12,8.44e-10,0.015,0.003,0    
    k,1,0,0
    k,2,0.2,0
    LSTR,       1,       2
    LATT,1,1,1, , , , 
    lsel,all
    LESIZE,all, , ,100, , , , ,1
    lmesh,all
    FINISH
    /solu
    ANTYPE,TRANS
    d,1,all,all
    outres,all,all
    !alpha,10
    TINTP,0
    trnopt,full
    deltim,1e-3
    time,1e-3
    kbc,1
    autots,on
    solve
    time,1e-2
    kbc,1
    autots,off
    F,101,FY,1
    solve
    time,1
    fdele,all,all
    kbc,1
    autots,on
    solve

    ! ***典型的用模态叠加法进行瞬态动力学分析的输入命令流:
    !Build the Model
    /FILNAM,...! Jobname
    /TITLE,...! Title
    /PREP7! Enter PREP7
    ---
    ---! Generate model
    ---
    FINISH
    !Obtain the Modal Solution
    /SOLU! Enter SOLUTION
    ANTYPE,MODAL! Modal analysis
    MODOPT,REDU! Reduced method
    M,...! Master DOF
    TOTAL,...
    D,...! Constraints
    SF,...! Element loads
    ACEL,...
    SAVE
    SOLVE
    FINISH
    !Obtain the Mode Superposition Transient Solution
    /SOLU! Re-enter SOLUTION
    ANTYPE,TRANS! Transient analysis
    TRNOPT,MSUP,...! Mode superposition method
    LVSCALE,...! Scale factor for element loads
    F,...! Nodal Loads
    MDAMP,...! Modal damping ratios
    DELTIM,...! Integration time step sizes
    LSWRITE! Write first load step (Remember: the first load step
    ---! is solved statically at time=0.)
    ---
    ---! Loads, etc. for 2nd load step
    TIME,...! Time at end of second load step
    KBC,...! Ramped or stepped loads
    OUTRES,...! Results-file data controls
    ---
    LSWRITE! Write 2nd load step (first transient load step)
    SAVE
    LSSOLVE! Initiate multiple load step solution
    FINISH
    !Review results of the mode superposition solution
    /POST26! Enter POST26
    FILE,,RDSP! Results file is Jobname.RDSP
    SOLU,...! Store solution summary data
    NSOL,...! Store nodal result as a variable
    PLVAR,...! Plot variables
    PRVAR,...! List variables
    FINISH
    !Expand the Solution
    /SOLU! Re-enter SOLUTION
    EXPASS,ON! Expansion pass
    NUMEXP,...! No. of solutions to expand; time range
    OUTRES,...! Results-file data controls
    SOLVE
    FINISH
    !Review the Results of the Expanded Solution
    /POST1
    SET,...! Read desired set of results into database
    PLDISP,...! Deformed shape
    PRRSOL,...! Reaction loads
    PLNSOL,...! Contour plot of nodal results
    PRERR! Global percent error (a measure of mesh adequacy)
    ---
    ---! Other postprocessing as desired
    ---
    FINISH
     
     
    !**下面给出的是可以概括用完全法进行瞬态动力学分析的过程的输入命令流:
    !Build the Model
    /FILNAM,...! Jobname
    /TITLE,...! Title
    /PREP7! Enter PREP7
    ---
    ---! Generate model
    ---
    FINISH
    !Apply Loads and Obtain the Solution
    /SOLU! Enter SOLUTION
    ANTYPE,TRANS! Transient analysis
    TRNOPT,FULL! Full method
    D,...! Constraints
    F,...! Loads
    SF,...
    ALPHAD,...! Mass damping
    BETAD,...! Stiffness damping
    KBC,...! Ramped or stepped loads
    TIME,...! Time at end of load step
    AUTOTS,ON! Auto time stepping
    DELTIM,...! Time step size
    OUTRES,...! Results file data options
    LSWRITE! Write first load step
    ---
    ---! Loads, time, etc. for 2nd load step
    ---
    LSWRITE! Write 2nd load step
    SAVE
    LSSOLVE,1,2! Initiate multiple load step solution
    FINISH
    !
    !Review the Results
    /POST26
    SOLU,...! Store solution summary data
    NSOL,...! Store nodal result as a variable
    ESOL,,,,! Store element result as a variable
    RFORCE,...! Store reaction as a variable
    PLVAR,...! Plot variables
    PRVAR,...! List variables
    FINISH
    /POST1
    SET,...! Read desired set of results into database
    PLDISP,...! Deformed shape
    PRRSOL,...! Reaction loads
    PLNSOL,...! Contour plot of nodal results
    PRERR! Global percent error (a measure of mesh adequacy)
    ---
    ---! Other postprocessing as desired
    ---
    FINISH



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  • 原文地址:https://www.cnblogs.com/dyl-HelloWorld/p/6009216.html
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