Finite Element Analysis
Finite Element Analysis (FEA) is at the core of our engineering approach. We use advanced simulation tools to predict structural behavior, optimize designs, and verify compliance with international standards. Our capabilities span linear and nonlinear analysis, dynamic response and thermal-structural modelling of complex systems.
Whether you need independent verification, design support, or advanced structural assessment, our FEA expertise ensures accuracy, reliability, and confidence in every decision.
Linear Structural Analysis
We perform high‑quality linear simulations to evaluate:
- Stress and deformation
- Load paths and reaction forces
- Elastic behaviour under static loading
- Superposition‑based load combinations
Nonlinear Structural Analysis
Real‑world behavior is rarely linear. We model:
- Material nonlinearity (plasticity, creep, hyperelasticity)
- Geometric nonlinearity (large deformation, large strain)
- Contact nonlinearity (frictional, sliding, separation)
- Nonlinear collapse and post‑buckling
Dynamic Response & Vibration Analysis
We assess how structures behave under time‑dependent and frequency‑dependent loads:
- Modal analysis (natural frequencies & mode shapes)
- Harmonic response
- Transient dynamic analysis
- Shock, impact, and drop simulations
Buckling & Stability Analysis
We evaluate stability for slender, thin‑walled, and load‑critical structures:
- Linear eigenvalue buckling
- Nonlinear buckling
- Local and global stability checks
- Collapse assessment
Thermal & Thermo-Mechanical Analysis
We simulate temperature‑driven behavior, including:
- Steady‑state and transient thermal fields
- Thermal expansion and thermal stress
- Coupled thermo‑structural response
- Heat transfer through conduction, convection, and radiation
