Structural Analysis

We analyse the behavior of loads that act on the structures to find out the deflection and stress induced in that system and modify the design.

Dynamic Analysis

We analyse the vibration response of parts under dynamic loading conditions to make the system stable to improve the performance and safety.

Thermal Analysis

We analyse the behavior of components when subjected to thermal loads to find out the thermal stress and heat transfer properties to improve the design.

CFD Analysis

We do CFD analysis for various applications and simulate the conditions of fluid flow and study the fluid flow behavior and related solid structures.

Linear Analysis

We analyse the parts of elastic materials with constant boundary conditions where the deflections are very small using linear analysis technique.

Non-Linear Analysis

We do nonlinear analysis when large displacement collapse or buckling of structures with progressive damage of structural components.

Static Stress Analysis

We do the static stress analysis where loads are applied slowly and gradually until they reach their full magnitudes and then the loads remain constant.

Modal Analysis

We determine the natural mode shapes and frequencies of an object or structure during free vibration and perform the study of dynamic properties.

Vibration Analysis

We do vibration studies pertaining to elastic or deformable bodies vibrating about the position of equilibrium using modal analysis and random vibration.

Buckling Analysis

We do linear-buckling analysis to calculate the buckling load magnitudes that cause buckling and associated buckling modes and arrive the  BLF.

Fatigue Analysis

We do the fatigue analysis to find local regions of high stress under operating conditions considering the maximum and minimum stress under cyclic loading.

Harmonic Stress Analysis

We do harmonic analysis to determine the steady-state response of linear structures to loads that vary sinusoidally (harmonically) with time.

Steady State Analysis

We do steady state analysis that computes steady state temperatures based on geometry, material properties & thermal boundary conditions.

Transient Analysis

We do heat transfer transient analysis to determine the temperature spread throughout the time with the same heat loads applied in steady state.

Conduction Analysis

We do the heat transfer conduction analysis for the objects which are subjected to thermal load for steady and transient temp distribution.

Convection Analysis

We do heat transfer convection analysis for the objects that are subjected to thermal loads for steady and transient temperature distribution.

Radiation Analysis

We do the heat transfer analysis due to radiation from one region of a component or assembly to another, or from the boundary of the structure.

Phase Change Analysis

We do the heat transfer analysis of system involving nonisothermal phase changes that includes temperature dependent material properties.

Creep Analysis

We perform creep analysis to find the permanent strain due to long term application of constant or near constant stress level at elevated temperatures.

Heat Transfer Analysis

We do heat transfer analysis for objects that are subjected to thermal loads to find the thermal stresses which has steady-state or transient transfer.

Low Frequency Analysis

We perform low frequency modal analysis to determine the natural mode shapes and frequencies of an object or structure during free vibration.

High Frequency Analysis

We perform high frequency modal analysis to  simulate 3-D full-wave electromagnetic fields in accuracy & speed and solve it in the short time.

Optimization Analysis

We do optimization using gradient based optimization methods, like sizing, shape and topology optimization, or calculation of response surfaces.

Hydraulic Simulation

We do hydraulic simulation using the standard hydraulic components and develop the system for various applications and simulate the systems.

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Field conditions can be virtually simulated using technology and the appropriate design changes can be made to avoid the field failures. This will save lot of warranty costs and also helps to build product image in the market. Invest now and build a robust market share.

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The product operating conditions can be simulated virtually using the latest technologies and validate the product fit for field conditions. Thereby you can give multi year guarantee for the products to your valuable customers to win their confidence.

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The weight optimization can be done using virtual simulation. The peak stress can be arrived for the various possible load conditions and the optimum weight ratio can be fixed for the product which saves the cost as well as the weight of the component.

Do you want to avoid rework costs?

The rework costs can be completely eliminated by predicting the possible field scenarios and simulate it in the system upfront. So it can be tested and verified and avoid the rework costs. It not only reduces the costs but also help to improve the customer satisfaction.

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