ESI SysWeld 2019.0 x64
SYSWELD is a 3D computer simulation system for welding and heat treatment processes.
Using the SYSWELD program, you can simulate the following heat treatment processes:
through hardening;
surface hardening;
quenching followed by annealing;
vacation;
austenite hardening
As well as chemical-thermal surface treatment:
cementation;
nitriding;
nitrocarburizing;
cyanidation.
SYSWELD simulates all the physical effects associated with heat treatment and welding.
Including:
electromagnetism (induction heating, etc.);
combined thermo - metallurgical analysis;
mechanical analysis;
diffusion.
Using the SYSWELD program, you can simulate a wide variety of welding technologies:
MIG
TIG;
spot welding;
laser beam welding and cutting;
electron beam welding;
electrode welding;
in a shielding gas environment, etc.
As a result of the calculation, you get information:
emerging stresses;
phase distribution in% (austenite, martensite, etc.);
temperature fields;
hardness distribution;
deformation.
System requirements: To start with its own GUI, a pre-installed Exceed / Exceed 3D v14 (and higher) is required
Only solvers require a pre-installed ESI Visual Environment
984MB
SYSWELD is a 3D computer simulation system for welding and heat treatment processes.
Using the SYSWELD program, you can simulate the following heat treatment processes:
through hardening;
surface hardening;
quenching followed by annealing;
vacation;
austenite hardening
As well as chemical-thermal surface treatment:
cementation;
nitriding;
nitrocarburizing;
cyanidation.
SYSWELD simulates all the physical effects associated with heat treatment and welding.
Including:
electromagnetism (induction heating, etc.);
combined thermo - metallurgical analysis;
mechanical analysis;
diffusion.
Using the SYSWELD program, you can simulate a wide variety of welding technologies:
MIG
TIG;
spot welding;
laser beam welding and cutting;
electron beam welding;
electrode welding;
in a shielding gas environment, etc.
As a result of the calculation, you get information:
emerging stresses;
phase distribution in% (austenite, martensite, etc.);
temperature fields;
hardness distribution;
deformation.
System requirements: To start with its own GUI, a pre-installed Exceed / Exceed 3D v14 (and higher) is required
Only solvers require a pre-installed ESI Visual Environment
984MB