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Tips & Tricks
How to define height of constraint UDT profile with respect to the Blankholder?
Method to constrain the height of UDT profile bulge with respect to the Blankholder
Sureshbabu
Yalavarthi
Sheet Metal Forming
How to define tipping for free double parts with existing forming direction?
Recommendation to position properly the free double parts in case the forming direction is predefined.
Jana
Maradova
Sheet Metal Forming
How to get back the hidden Part Definition after accepting dialogue?
Option to deactivate to get back the hidden part definition after accepting dialogue.
Sureshbabu
Yalavarthi
Sheet Metal Forming
How to improve the update performance on iterations?
Recommendation to optimize the update performance during iterations.
Sureshbabu
Yalavarthi
Sheet Metal Forming
Physical Optics (PO) VS. Geometrical Optics (GO)
The purpose of this article is to compare two High Frequency formalisms, namely Physical Optics & Geometrical Optics, with a brief overview of their advantages & drawbacks.
Jean-Claude
Kedzia
Electromagnetics
How to complete partial part on binder die design with “flat” part boundary?
In the following picture, the die entry radius in the addendum region should disappear smoothly in a flat surface (or infinite radius). In current version, there is no function to directly fulfill this need.
Marie
de Marguerye
Sheet Metal Forming
CFD-FASTRAN/CFD-ACE+ coupling for thermal environment simulations
In certain applications, different regions of the computational domain experiences flow conditions that are so different that it is very difficult for a single solver to produce accurate results at the extremes. In many situations, such problems can be separated and solved using loosely coupled solvers. Each solver is chosen to provide highly accurate solutions for the prevailing flow conditions.
Abraham
Meganathan
CFD
Avoiding Chimera Errors in CFD-FASTRAN
This note discusses a common error encountered by users when trying chimera meshes in CFD-FASTRAN. Such errors are easy to avoid and hopefully this note will assist you.
Abraham
Meganathan
CFD
Motion Model Dependencies in CFD-FASTRAN
Moving-body models available in CFD-FASTRAN are highly suited to simulate complex prescribed and six-degree-of-freedom (6DOF) motions of rigid bodies. In many engineering problems, this translates to multiple bodies moving relative to one another.
Abraham
Meganathan
CFD
Low Mach Preconditioning and Dual Time Stepping in CFD-FASTRAN
Density-based schemes employing time-marching procedures available in CFD-FASTRAN provide excellent stability and convergence characteristics for high-speed compressible flows (typically M >0.5).
Abraham
Meganathan
CFD