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Durability & Fatigue Life

Durability & Fatigue Life Artificial Intelligence Analysis FEA|CFD & AI Integration

Based on what we want to Design and Analysis, Stress, Strain or temperature from finite element (FE) software such as ANSYS, ABAQUS, NASTRAN, LS-Dyna, MSC Marc etc used. The industry-leading fatigue Simulation technology such as Simulia FE-SAFE, Ansys Ncode Design Life and FEMFAT used to calculate fatigue life of multiaxial, welds, short-fibre composite, vibration, crack growth, thermo-mechanical fatigue.

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Durability & Fatigue Life, Integrated FEA|CFD with Artificial Intelligence

Composites Fatigue Simulation

The Composite Analysis allows us to evaluate the strength of a structure against industry standard composite failure criteria. Rather than limiting this evaluation to a small number of load cases or steps, stresses can be assessed by using the chosen failure criteria throughout realistic duty cycles (quasi-static or dynamic). This allows critical locations, load combinations and associated design reserve factors to be readily identified.

Multiphysics AI: Simulate Fluids, Structures, & Electromagnetics

Model EV motor cooling, MEMS sensors, and satellite thermal-vibration coupling. Use pytorch/TensorFlow-integrated solvers to automate boundary conditions and predict multiphysics failures in mission-critical systems.

Simulation Dynamics

Composites Fatigue Simulation, Ansys, Simulia, Siemens, Integrated FEA|CFD with Artificial Intelligence

Advanced Engineering Solutions

Creep & Creep-Fatigue Interactions

To evaluate the durability of components subjected to both mechanical and thermal loads, it is important to consider the effects of creep and creep-fatigue interactions. Creep is a time-dependent deformation of a material under a constant load or stress, while creep-fatigue interaction refers to the combined effects of cyclic loading and creep deformation.

The cause of failure in a component subjected to mechanical and thermal loads can be attributed to either creep, fatigue, or a combination of both. By performing comprehensive testing and Finite Element Simulation with Ansys/HBM nCode DesignLife or Simulia fe-safe, the cause of failure can be determined, and appropriate design changes can be made to improve the durability of the component.

Finite element analysis can be used to perform stress analysis on the component, but it is important to incorporate the effects of creep and creep-fatigue interactions into the analysis. This can be done through the use of specialized software that incorporates creep and creep-fatigue models into the finite element analysis.

AI-Driven Simulations for Smarter Engineering.

Leverage Artificial Intelligence to optimize CFD, FEA, and multiphysics simulations. Automate workflows, reduce errors, and accelerate innovation. Transform your engineering processes with AI-powered insights.

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Creep & Creep-Fatigue Interactions, Ansys, Simulia, Siemens, Integrated FEA|CFD with Artificial Intelligence

Advanced Engineering Solutions

Elastomer Materials Fatigue

Developers of rubber materials, components and systems increasingly rely on simulation as a routine means to address design issues. For metallic components, solutions for fatigue analysis from FEA have existed commercially for many years and have become an essential part of maturing and qualifying design concepts in many industrial sectors. Using modern multiaxial strain based fatigue methods enable us to simulate the fatigue analysis of elastomer materials and Rubber.

Solve Complex Problems with Multiphysics Simulation.

Combine forces, heat, fluids, and more in a single multiphysics simulation platform. Drive innovation across aerospace, automotive, and energy sectors. Experience the power of integrated engineering solutions.

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Elastomer Materials Fatigue, Ansys, Simulia, Siemens, Integrated FEA|CFD with Artificial Intelligence

Advanced Engineering Solutions

Fatigue Analysis of Welded Structures

It is crucial to evaluate the fatigue behavior of welded joints as they are often critical components in various engineering applications such as automotive, aerospace, and structural engineering. Welded joints are subjected to complex loading conditions that can cause fatigue failure over time. Therefore, it is essential to use advanced numerical simulation software and methods to simulate the welding behavior and estimate its life under real-service load conditions.

Simulation Dynamics uses various fatigue analysis tools such as Ansys Ncode, Simulia FE-Safe, and FEMFAT to perform fatigue simulations on welded joints. These software packages allow for detailed modeling of welded joints and can simulate various types of welding such as fillet, overlap, spot welds in thin sheets, and laser welded joints.

By using advanced numerical simulation software and methods, the fatigue life of welded joints can be accurately estimated, and critical locations and load combinations can be identified. This allows for the optimization of the welding design and material selection to improve the durability and reliability of the welded joint in real-service load conditions.

Revolutionize Fluid Dynamics with CFD Simulation.

Optimize fluid flow, heat transfer, and turbulence with advanced CFD simulation tools. Enhance engineering designs for aerospace, automotive, and energy industries. Experience precision and efficiency in fluid dynamics analysis.

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Fatigue Analysis of Welded Structures, Ansys, Simulia, Siemens, Integrated FEA|CFD with Artificial Intelligence

Advanced Engineering Solutions

Vibration Fatigue Simulation

structural vibration can lead to various issues in products, such as fatigue and durability problems, adverse reactions to users or bystanders, and safety concerns. Structural vibration is the result of dynamic loads acting on a product, causing it to vibrate and potentially fail over time. Fatigue and durability problems can arise from repeated vibration cycles that can cause cracks, fractures, or other forms of damage to the product.

Undesirable vibrations can also be felt or heard by users, leading to discomfort or annoyance. In some cases, vibrations can even cause injury or health problems, such as hand-arm vibration syndrome (HAVS) or whole-body vibration (WBV) syndrome. Undesirable vibrations can also affect the performance of a product, leading to reduced efficiency, accuracy, or speed.

Engineering Reliability, One Simulation at a Time.

Finite Element Anlaysis(FEA) and Computational Fluid Dynamics(CFD) ensures your designs are built to last. From automotive to aerospace, analyze structural integrity with precision. Trust in reliable solutions. Whether predicting pressure drop, thermal shock, stress, strain, or deformation, FEA & CFD delivers the insights you need to innovate with confidence. Build products that perform under pressure.

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Vibration Fatigue Simulation, Ansys, Simulia, Siemens, Integrated FEA|CFD with Artificial Intelligence

Advanced Engineering Solutions