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Multiphysics Analysis

Modern products are complex. A detailed understanding of how they work is key to ensuring a safe and reliable function. Fluid forces, thermal effects, structural integrity and electromagnetic radiation can affect performance. If you isolate these forces and examine them separately, you may not get an accurate prediction of the product behavior.

Our multi-physics analysis services can help you examine these effects in any combination, achieving a higher reliability solution to eliminate problems and desing safe and effective products.

Computational Fluid Dynamics
Thermal Analysis
Computational Mechanics
Magnetohydrodynamics
Computational Electromagnetics
Structural Analysis
Computational Beam Physics
26402-8165815

26402-8165815

1-s2_0-S016890021200993X-gr6

1-s2_0-S016890021200993X-gr6

Autodesk_simulation_mechanical_mech

Autodesk_simulation_mechanical_mech

peaks

peaks

Comsol_Afbeelding_1

Comsol_Afbeelding_1

CFD

CFD

Computational Fluid Dynamics

CEM

CEM

Computational Electromagnetics Image - Transient model of a single phase E-core transformer that is described by a nonlinear B-H curve in the core. The graph shows the electromagnetic field and current in the primary and secondary windings. Courtesy: COMSOL (TM)

OPTIMIZATION

OPTIMIZATION

Analysis and Optimization

Thermal Analysis

Thermal Analysis

Computational Heat Transfer and Thermal Analysis

STRUCTURAL ANALYSIS

STRUCTURAL ANALYSIS

Stress Analysis

Computational Beam Physics

Computational Beam Physics

Computational Beam Dynamics and Electromagnetic Optics.

Finite Difference Methods
Finite Element Methods
Boundary Layer Methods
Monte-Carlo Methods
Particle-in-Cell

COSY Infinity

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