Comprehensive simulations for robust engineering solutions.
Explore Our ServicesEvaluate and optimize the strength, stability, and safety of structures under various loading conditions.
Learn MoreAdditional Details: Our structural analysis services include static, dynamic, and fatigue analysis, allowing for a comprehensive understanding of structural behavior under different conditions. We utilize advanced FEA tools to assess stress, strain, and deformation, ensuring optimal design and safety in various industries, from aerospace to civil engineering.
Simulate and evaluate temperature distribution alongwith thermal stresses in complex systems.
Learn MoreAdditional Details: Thermal analysis helps in predicting heat flow and temperature distribution within components and assemblies. This is essential for designing heat exchangers, electronics cooling, and other thermal management solutions. Our simulations help optimize thermal performance, ensuring reliability and efficiency.
Identify natural frequencies, mode shapes, and vibrational responses to prevent resonance and failure.
Learn MoreAdditional Details: Our vibrational analysis services focus on modal, harmonic, and transient analysis to study the dynamic behavior of structures. This is crucial for automotive, aerospace, and manufacturing industries where vibrations can lead to fatigue, noise, and failure.
Advanced crash, impact, and non-linear simulations using LS-DYNA for accurate results in extreme conditions.
Learn MoreAdditional Details: LS-DYNA is a powerful tool for simulating complex real-world problems, such as vehicle crash tests, blast simulations, and metal forming processes. Our expertise in LS-DYNA ensures accurate results and insights for designing safer and more resilient products.
Analyze and optimize the dynamic motion of mechanisms and assemblies under various operational conditions.
Learn MoreAdditional Details: Our motion and dynamic analysis services cover multibody dynamics, rigid and flexible body dynamics, and kinematic analysis. This helps in optimizing the performance and reliability of mechanical systems in sectors such as automotive, robotics, and heavy machinery.
Simulate the additive manufacturing process to predict material behavior, residual stresses, and part distortions.
Learn MoreAdditional Details: We provide simulations for additive manufacturing processes like 3D printing, ensuring high-quality production with minimal defects. Our analyses cover aspects such as thermal gradients, residual stresses, and warping, helping to optimize build strategies for various materials.