Tips & Tricks

How to simulate welding process with variable weld speed and Heat power ?

In real process, the user changes the velocity depending to the distance already covered or still to cover in welding process. To better reproduce the start and the end of a welding process, the velocity must be able to vary during at least these two phases as well as the heat source power. And to be more generic, this feature introduces a time dependency of the heat source velocity and its power density.

e-café #12 : L’outil de post traitement ESI PLAYER™

Découvrez comment exporter et exploiter les résultats de ProCAST™ ou QuikCAST™ dans l’interface ESI-PLAYER™

e-Café #7 - Maillage volumique avec Visual-CAST™ 16.0

Créez le maillage volumique à l’aide de la fonction Grid Definition dans Visual-CAST™ 16.0

e-Café #2 PYFUN, PYSTOP - Programmer ses propres critères d'arrêt de calcul

Comment programmer des critères d'arrêt de calcul en Python

e-café #5- Pilotage du refroidissement par thermocouple à l’aide de ProCAST™ et QuikCAST™

Pilotage du refroidissement par thermocouple à l’aide de ProCAST™ et QuikCAST™

e-café #4- Modélisation de l’emballage (Wrap) à l’aide de ProCAST™

Modélisation de l’emballage (Wrap) à l’aide de ProCAST™

e-café #3- Modélisation des opérations de poteyage et soufflage à l’aide Quik CAST™

Modélisation des opérations de poteyage et soufflage à l’aide Quik CAST™

How to model Cable Networks & Connectors?

This paper is aimed at describing the modeling process to be applied to the terminal connectors of a Cable Network when focusing on 3D/Multiconductor Transmission Lines (MTL) coupling

How to avoid oscillatory phenomena with short circuited terminals of Cable Networks ?

Cable Networks with short-circuited terminals may exhibit Common-Mode (CM) currents with a highly oscillatory behavior. This article illustrates one solution to eliminate such behavior by considering lossy dielectric coatings varying with the frequency.

FD Interpolating Scheme near Metallic Structures

This article illustrates the PAM-CEM/FD interpolation scheme applied to compute the tangential electric field along wires’ path running near metallic structures (and aimed at avoiding the management of field components on both sides of the surface).