Finite Element Analysis

MODAL (VIBRATIONAL) ANALYSIS

Our modal analysis using finite element analysis governing equations provides insights into the natural frequencies, mode shapes, and damping ratios of structures and components. With our 3D FEA software and expertise, we help identify potential vibration issues, optimize designs, and improve the performance and durability of your products. Our modal analysis helps you meet compliance requirements, reduce failure risks, and avoid unnecessary expenses

THERMAL ANALYSIS

Our thermal analysis service using FEA software allows for the prediction of thermal behavior and temperature distribution of components or systems under various conditions. Our team leverages advanced FEA techniques to simulate heat transfer and thermal stresses, providing valuable insights into the design and functionality of products. By accurately modeling the geometry, material properties, and boundary conditions, we can identify potential hot spots, thermal gradients, and thermal expansion issues. Our thermal analysis service is applicable across various industries, including aerospace, automotive, electronics, and industrial manufacturing. Our service is applicable across various industries, providing cost-effective solutions to optimize product design and performance.

FATIGUE ANALYSIS

Fatigue failure can be costly and pose serious safety risks for mechanical components . That's why we provide a unique approach to fatigue analysis using FEA software to simulate realistic loading conditions and accurately predict the performance of your product over time. Our experienced engineers work with you to identify critical areas prone to fatigue failure and recommend design modifications to improve durability and extend the product's life cycle. With our advanced FEA capabilities, you can be confident in the reliability and safety of your product.

NON-LINEAR ANALYSIS

Non-linear FEA simulation is a computational method that can accurately predict the behavior of a system when subjected to large deformations, material nonlinearity, or geometric nonlinearity. Unlike linear FEA, nonlinear FEA can capture the complex behavior of structures or materials under extreme loading conditions and provide valuable insights into their performance and safety

Our non-linear analysis services utilize advanced Finite Element Analysis (FEA) techniques to accurately simulate the behavior of structures under complex and non-linear loading conditions. Our team of experts can help you identify potential failure modes and design defects early in the product development process, ultimately reducing the risk of catastrophic failures and optimizing product performance. Whether you need to analyze the plastic deformation of a part, simulate the behavior of a structure under large deformations, or evaluate the effects of contact, our non-linear analysis services can help.

DYNAMIC SIMULATION

Dynamic analysis is a powerful tool for predicting the behavior of structures under varying loading conditions. Our dynamic analysis services utilize advanced finite element analysis techniques to simulate complex dynamic phenomena such as vibration, impact, and seismic response. Our team of experienced engineers can help you optimize the performance of your products and structures by identifying critical resonant frequencies, assessing fatigue life, and evaluating the effects of shock and vibration. We also offer customized solutions for specific applications such as vehicle dynamics, structural dynamics, and earthquake engineering. Contact us today to learn how our dynamic analysis services can help you improve the reliability and safety of your designs