hmpam
Translates information from a PAM-CRASH and PAM-CRASH 2G results file (.DSY file) to a HyperMesh binary results file or to a Hyper3D (.h3d) file.
Syntax
hmpam [-h3d] [arguments] <input file> <output file> [model file] [-options<Filename>]
Application
Translators
Description
hmpam no longer requires a license for ESI DSYLIB.
hmpam can also translate a model from a PAM-CRASH and PAM-CRASH 2G THP file. In this case, only the model is output (no results).
hmpam can also read dsy/thp files from PAM-CRASH 2003 version.
Inputs
- [-h3d]
- The output file is written in the h3d format and contains model data and results in one file. The selection of the option [model file] is not allowed in this case.
- [-options<Filename>]
- Specify the timesteps and components, that will be converted to the result file.
- [arguments]
- Supported options include:
- -d
- Displacements
- -v
- Velocities
- -a
- Accelerations
- -sxx
- SXX
- -syy
- SYY
- -szz
- SZZ
- -sxy
- SXY
- -syz
- SYZ
- -szx
- SZX
- -3S1
- Minimum Principal Stress 3D (for solids only)
- -3S2
- Maximum Principal Stress 3D (for solids only)
- -3S3
- Second Principal Stress 3D (for solids only)
- -mxx
- Local bending moment about r-axis
- -myy
- Local bending moment about s-axis
- -mxy
- Local twist bending moment
- -m1
- Max Principal bending moment
- -m2
- Min Principal bending moment
- -nxx
- Local membrane stress resultant in r-direction
- -nyy
- Local membrane stress resultant in s-direction
- -nxy
- Local in-plane shear membrane stress resultant
- -n1
- Max. Principal membrane stress resultant
- -n2
- Min. Principal membrane stress resultant
- -eple
- Equivalent Plastic Strain
- -epma
- Maximum plastic strain over thickness
- -epmi
- Minimum plastic strain over thickness
- -epsi
- Lower & Upper Surface Strain tensors
- -sigm
- Lower, Upper & Middle Surface Stress tensors
- -thic
- Resultant Shell Thickness
- -thin
- Resultant Shell Thinning
- -esma
- Maximum equivalent stress over thickness
- -esmi
- Minimum equivalent stress over thickness
- -faxi
- Force in local R-direction
- -fssh
- Force in local S-direction
- -ftsh
- Force in local T-direction
- -mtor
- Flexion bending moment about local u-direction
- -msn1
- Directional dependency function for flexion moment
- -mtn1
- Torsion bending moment about local T-direction
- -msn2
- Resultant damping moment
- -mtn2
- Resultant friction moment
- -daxi
- Axial elongation in R direction
- -rtor
- Torsion angle about local r axis
- -rsn1
- Bending rotation angle about local S-axis at node 1
- -rtn1
- Bending rotation angle about local T-axis at node 1
- -rsn2
- Bending rotation angle about local S-axis at node 2
- -rtn2
- Bending rotation angle about local T-axis at node 2
- -stepN
- Step increment N, where N is a positive integer. (default N=1)
- -disk
- Translation is performed on disk
- -file
- Scratch file name
- -options
- [Filename] gives the filename for the options file. Syntax is described below.
- -h3d
- Outputs file to an H3D file instead of to an hmresults file. The file includes model and results information that was translated. The model must contain geometry for it to be output to an H3D file.
The supported results include the following:
- Nodal
-
- Displacements
- Velocities
- Accelerations
- Bricks
-
- Sigma - xx
- Sigma - yy
- Sigma - zz
- Sigma - xy
- Sigma - yz
- Sigma - zx
- Minimum Principal Stresss 3D
- Maximum Principal Stress 3D
- Second Principal Stress 3D
- EPLE: Equivalent Plastic Strain
- Beams
-
The definitions of the following variables depend on the material type:
- FAXI
- FSSH
- FTSH
- MTOR
- MSN1
- MTN1
- MSN2
- MTN2
- DAXI
- RTOR
- RSN1
- RTN1
- RSN2
- RTN2
- Tools
-
- Thickness
- Shells
-
- MXX - Local bending moment about r-axis
- MYY - Local bending moment about s-axis
- MXY - Local twist bending moment
- M1 - Maximum Principal bending moment
- M2 - Minimum Principal bending moment
- NXX - Local membrane stress resultant in r-direction
- NYY - Local membrane stress resultant in s-direction
- NXY - Local in-plane shear membrane stress resultant
- N1 - Maximum Principal membrane stress resultant
- N2 - Minimum. Principal membrane stress resultant
- EPMA - Maximum plastic strain over thickness
- EPMI - Minimum plastic strain over thickness
- EPSI - Lower and Upper Surface Strain tensors
- SIGM – Lower, Upper, and Middle Surface Stress tensors
- THIC - Resultant shell thickness
- THIN - Resultant shell thinning (for stamp only)
- ESMA - Maximum equivalent stress over thickness (von Mises)
- ESMI - Minimum equivalent stress over thickness (von Mises)