CAE Analysis

Our commitment to offer customers with comprehensive solutions for realizing their product development goals, we consistently focus on developing newer capabilities in the Computer Aided Engineering (CAE) domain, primarily catering to the automotive, oil & gas, High Tech and healthcare industries.
CAE include:
1. Stress analysis on components and assemblies using FEA/FEM (Finite Element Analysis);
2. Thermal and fluid flow analysis Computational fluid dynamics (CFD);
3. Kinematics;
4. Mechanical event simulation (MES).
5. Analysis tools for process simulation for operations such as casting, molding, and die press forming.
6. Optimization of the product or process.
The Finite Element Method (FEM) (its practical application often known as finite element analysis (FEA)) is a numerical technique for solving models in differential form. For a given design, the FEM requires the entire design, including the surrounding region, to be modeled with finite elements. A system of linear equations is generated to calculate the potential (scalar or vector) at the nodes of each element. Therefore, the basic difference between these two techniques is the fact that BEM only needs to solve the unknowns on the boundaries, whereas FEM solves for a chosen region of space and requires a boundary condition bounding that region.