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GPBEST
Complete Boundary Element Engineering Analysis
System
The most efficient and accurate 3-D BEM analysis available,
developed by the people who gave the "Boundary Element Method" its name
Why bother with "Tet" meshing? ....... Just use the surface mesh!
Vibration mode of a crankshaft, analyzed on an engineering workstation
Current Industry Usage
 | Automotive |
| Aircraft |
| Appliance |
| Casting Molds |
| Machinery |
| Biomedical |
| Electronic Packaging |
| Injection Molds |
Areas of Analysis
| Elastic Stress |
| Thermal Stress |
| Heat Transfer |
| Forced and Free-Vibration |
| Nonlinear Stress |
| Fracture Mechanics |
| Acoustics |
| Structural Acoustics |
Deformed shape and stress plot of a lug (gap and contact analysis)
 
Blow-up of region
around the mounting
pin, illustrating pin
movement
Featuring
| GPBEST Boundary Element Method Analysis Program |
| BESTVIEW Graphics Program for Pre- and Post-Processing |
| Translators To and From Several Popular Modeling Programs (PATRAN, I-DEAS, HYPERMESH,
etc.) |
| Available for Unix Workstations |
Additional Options
| Axisymmetric, 2-D, 3-D |
| Gap and Contact Analysis |
| Anisotropic Material |
| Substructuring |
| Hole and Insert Elements |
| Cyclic and Planar Symmetry |
| Exterior Domains |
| Restart Capability |
| Distributed Computing Environment (DCE) |
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GPBEST
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