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Services

Our capabilities range from simple implicit static and thermal simulations to advanced explicit impact analysis. These methods vary just as much as the material models they require. 

Simulation of metal

Simulations can be carried out in either linear or non-linear settings, with small or large deformation. These simulations can reveal the recoverable deformation within the elastic range, as well as the permanent deformation of the structure.

Drop and impact

Drop simulation is a type of analysis used to simulate the behavior of a product or object when dropped from a certain height or impact force. The goal of drop simulation is to determine the product's ability to withstand impact and identify potential weak or failure points.

Static thermal

Static heat transfer simulation refers to a simulation where the temperature distribution in a system is calculated assuming that it is in steady-state. This type of simulation is useful when the system being studied is expected to operate under steady-state conditions.

Simulation of polymer

In addition to metals, it is essential to understand polymer's viscoelastic and hyperelastic properties. Polymers have the ability to relax over time and undergo substantial deformation without failure, which must be accounted for in the simulation

Sudden large deformation

Silicon material serves as a prime illustration of the sudden occurrence of hyperelastic large displacement and potential failure. The rapid nature of this event exceeds the capabilities of direct solvers to manage the deformation, necessitating the use of a dynamic explicit.

Transient thermal

Transient heat transfer simulation refers to a simulation where the temperature distribution in a system is calculated over time. This type of simulation is useful when the system being studied is expected to experience changes in operating conditions periodically.

Failure analysis

This method can be used to predict how materials will damage and crack under different conditions and how these changes may affect the overall performance and safety of a structure.

Modal analysis

This analysis has the ability to anticipate frequency interference, also known as resonance, that may occur between interconnected systems, potentially resulting in device malfunction. The simulation determines the natural frequency, mode shapes and damping ratio.

Thermo-mechanical

 In a coupled field temperature-structural simulation, the thermal and structural models are linked together, so that changes in temperature can affect the structure and changes in the structure can affect the temperature.

Static thermal analysis
Transient thermal analysis
Thermo mechanical analysis
Metal static structural simulation
Polymer static structural simulation
Failure analysis
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Explicit rubber simulation
Modal analysis

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