Finite Element Analysis(FEA)
Static Analysis
Fast and efficient to analyze structures under static loading conditions, etc.
Non-Linear Analysis
Provides more realistic and reliable results compared to linear analysis, etc.
Modal Analysis
Identify the natural frequencies and mode shapes of a structure, etc.
Fatigue Analysis
Reduce the need for physical testing, which can be expensive and time-consuming, etc.
Harmonic Analysis
Determine the response of a structure to a wide range of frequencies, etc.
Thermal Analysis
Improved product quality: STA can help identify the optimal processing conditions for a material, etc.
Random Vibrational Analysis
Determine the response of a system or structure to random or non-repetetive excitations, etc.
Internal Flow Analysis
Predict the behavior of fluid flow in any bounded volume system, etc.
Multi-phase Flow
Provide more accurate results than single-phase flow simulation, etc.
External Flow analysis
Simulating external flows around complex geometries, etc.
Discrete Phase
Tracks the motion of individual particles as they go through the fluid, etc.
Conjugative Heat Transfer Analysis (CHT)
Accurately predict the surface temperatures of engineering devices, etc.
Moving Geometries
More realistic simulation of fluid flow around objects that are in motion, etc.
Multi-Body Dynamic Analysis(MBD)
Rigid Body Dynamic Analysis
Computationally efficient and can solve problems faster than other methods, etc.
Multi-flexible-body Dynamics
Combines the Multi-Body Dynamics (MBD) and the Finite Element Method (FEM) into a single solver, making it faster and more robust than a co-simulation approach, etc.
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