HyperView Radioss Results Reader
Supported Results
Data Name | Result Type | Data Type |
---|---|---|
Vectors | ||
Displacement | NODE | VECTOR |
Contact Forces | NODE | VECTOR |
Velocity | NODE | VECTOR |
Acceleration | NODE | VECTOR |
Displacements (from File) | NODE | VECTOR |
External Forces | NODE | VECTOR |
Internal Forces | NODE | VECTOR |
Sect. RBY Moments | NODE | VECTOR |
Sect RBY, Wall F | NODE | VECTOR |
Nodal Scalars | ||
Grid Point Stress | NODE | SCALAR |
Node Mass | NODE | SCALAR |
Mass Change | NODE | SCALAR |
Time Step | NODE | SCALAR |
Elemental Scalars ( for 2-D and 3-D elements only | ||
Plastic Strain | ELEMENT | SCALAR |
von Mises | ELEMENT | SCALAR |
Specific Energy | ELEMENT | SCALAR |
Hourglass Energy | ELEMENT | SCALAR |
Density | ELEMENT | SCALAR |
Mass | ELEMENT | SCALAR |
Pressure | ELEMENT | SCALAR |
Damage 1 | ELEMENT | SCALAR |
Stress X | ELEMENT | SCALAR |
Stress Y | ELEMENT | SCALAR |
Stress Y | ELEMENT | SCALAR |
Stress XY | ELEMENT | SCALAR |
Stress YZ | ELEMENT | SCALAR |
Stress ZX | ELEMENT | SCALAR |
Tensors (for 2-D elements) | ||
Stress (membrane) | ELEMENT | TENSOR2-D |
Stress (upper) | ELEMENT | TENSOR2-D |
Stress (lower) | ELEMENT | TENSOR2-D |
Strain (membrane) | ELEMENT | TENSOR2-D |
Strain (upper) | ELEMENT | TENSOR2-D |
Strain (lower) | ELEMENT | TENSOR2-D |
Tensors (for 3-D elements) | ||
Stress | ELEMENT | TENSOR3-D |
Damage | ELEMENT | TENSOR3-D |
Note:
- A files from Radioss 41, 44, 51, 90, 110, and 120 are supported.
- A files written in Radioss 44 and Radioss 51 format are supported.
- A Files from Radioss 31 are not supported.
- 1D element results (both scalar and torsion) are not supported.
- All tensor results (2D and 3D) should be viewed in the Element Result System.
- Plastic strain across thickness is supported.
- A files from RAD2NOISE tool are supported.
- HyperView can read zipped A00 files of Radioss using FEMZIP libraries v11.27 or older.
- Ply systems for orthotropic/composite shells and solids are supported. You can review systems for individual plies(layers) through the Systems Review dialog. You can also transform stresses and strains from an elemental or global system to a ply system. To review these systems and use them for transformations, make sure that the datatype PHI is written to the Radioss animation file and the advanced result-math template is used to load the results in HyperView.