We offer comprehensive Finite Element Analysis (FEA) services using industry-leading commercial simulation tools. Our capabilities cover a wide range of loading conditions, physical phenomena, and material behaviors to support design validation, regulatory compliance, and product optimization.

Core FEA Capabilities

We conduct detailed simulation studies across a variety of applications, including:

• Static Structural Analysis – Linear and nonlinear assessments under steady mechanical loads

• Dynamic Analysis – Time-dependent simulations including transient, harmonic, and random vibration loading

• Thermal Analysis – Steady-state and transient thermal simulations, thermal stresses, and coupled thermo-mechanical behavior

• Modal and Buckling Analysis – Natural frequency extraction, mode shape analysis, and stability assessments under compressive loads

• Failure Analysis – Stress concentration, plasticity, fatigue, and fracture assessments

• Crack Propagation and Fracture Mechanics – LEFM-based crack growth modeling, fatigue crack life prediction, and damage tolerance evaluation

Validation and Compliance

Beyond simulation, we support validation testing through correlation studies and standards-based verification. Our methodology ensures that simulation results align with physical tests, design codes, and industry regulations. We routinely validate FEA outputs against:

• ASME (e.g., BPVC, Y14.5, and fatigue standards)

• ISO standards (mechanical design, thermal performance, safety)

• API codes (particularly for pressure-containing and rotating equipment)

We utilize material test data, physical prototypes, and strain gauge instrumentation where applicable to calibrate and refine our models. This ensures your designs are not only optimized but also validated for safety, reliability, and regulatory compliance.

Our FEA and validation expertise supports projects across aerospace, energy, marine, industrial machinery, and more—giving clients confidence in the structural integrity and performance of their critical components.