CAE Services

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right_orange Structural Analysis

right_orange Modal Analysis

right_orange Thermal Analysis

right_orange Crash Analysis

right_orange Structural Optimization

right_orange Fluid and Aerodynamics

right_orange Multiphysics Simulation

Structural Analysis

Structural Analysis

Delivering expert structural analysis that guarantees strength, stability, and safety across every design. From concept to completion, we deliver reliable, cost-efficient solutions using advanced tools like ANSYS, Abaqus, SAP2000, and STAAD. Our services include Finite Element Analysis, linear and nonlinear analysis, static and dynamic studies, fatigue and fracture evaluation, thermal-structural coupling, and buckling analysis. With proven experience, fast delivery, and dedicated engineering support, we help you design safe, efficient, and compliant structures—from skyscrapers and bridges to aircraft components and industrial systems.

Modal Analysis

Understand, detect, and prevent structural resonance with expert Eigenfrequency Analysis. Or Keep designs safe and stable with precise Eigenfrequency Analysis. Using advanced simulation tools and Finite Element Analysis (FEA), we perform detailed modal and coupled simulations to optimize performance and ensure reliability. Our process combines deep engineering expertise with precise validation and reporting. With proficiency in leading software such as ANSYS, COMSOL, and Abaqus, we deliver fast, accurate, and cost-effective results tailored to your industry’s unique challenges—backed by dedicated engineering support from initial consultation to the final report.

Modal Analysis
Thermal Analysis

Thermal Analysis

Predict, Prevent, and Optimize heat-related performance in products and structures. Our expertise spans electronics, engines, buildings, and industrial equipment, ensuring safety, reliability, and efficiency under real-world thermal conditions. We specialize in steady-state and transient thermal analysis, conduction, convection, and radiation modeling, thermal-structural coupling, electronics cooling, and CFD-based simulations. Using industry leading software such as ANSYS, COMSOL, Abaqus, and CFD tools, we deliver accurate, cost-effective solutions with fast turnaround times and comprehensive engineering support from initial concept through final validation.

Crash Analysis

Advanced crash analysis supports manufacturers in designing safer, more reliable, and regulation-compliant products. Using cutting-edge finite element analysis (FEA) and crashworthiness simulations, we enable virtual testing before physical prototyping to optimize safety and performance. Our capabilities include vehicle crashworthiness, pedestrian and occupant safety analysis, impact and drop testing, material failure assessment, energy absorption, and battery crash safety. With expertise in LS DYNA, Abaqus, and HyperCrash, we deliver fast, accurate, and cost-effective solutions—supported by proven experience and dedicated engineering assistance from initial concept to final certification.

Crash Analysis
Structural Optimization

Structural Optimization

Design Lighter, Stronger, and More Efficient Products. By applying cutting-edge optimization techniques and finite element analysis (FEA), we achieve the ideal balance between strength, weight, and cost for real-world performance. Our expertise covers topology, size, shape, multi-objective, crash, thermal-structural, and additive manufacturing optimization. Using leading tools such as ANSYS, OptiStruct, Abaqus, and COMSOL, we deliver fast, cost-effective solutions with proven results across automotive, aerospace, and civil engineering sectors— supported by dedicated engineering assistance from concept through production.

Fluid and Aerodynamics

  • Fluid and aerodynamic analysis studies the behavior of gases and liquids as they interact with objects.
  • From reducing drag in vehicles to improving cooling in electronics, these simulations improve performance, efficiency, and energy savings.

Fluid and Aerodynamics
Multiphysics Simulation

Multiphysics Simulation

  • This integrated approach captures complex real-world behavior, leading to more reliable and innovative designs 
  • Multiphysics simulations combine structural, thermal, fluid, and electromagnetic interactions into one model.