Mechanical Simulation Tools

we offer

ABAQUS UNIFIED FEA
abaqus

The Abaqus Unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications.

The Abaqus Unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications. In the automotive industry engineering work groups are able to consider full vehicle loads, dynamic vibration, multibody systems, impact/crash, nonlinear static, thermal coupling, and acoustic-structural coupling using a common model data structure and integrated solver technology. Best-in-class companies are taking advantage of Abaqus Unified FEA to consolidate their processes and tools, reduce costs and inefficiencies, and gain a competitive advantage.

Abaqus offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications.

Please contact us for more information.

TOSCA
tosca

As leading technologies for structural optimization and flow optimization, both Tosca Structure and Tosca Fluid offer efficient optimization based on industry standard FEA (Abaqus, ANSYS, MSC Nastran) and CFD software (STAR-CCM+ and ANSYS Fluent).

As leading technologies for structural optimization and flow optimization, both Tosca Structure and Tosca Fluid offer efficient optimization based on industry standard FEA (Abaqus, ANSYS, MSC Nastran) and CFD software (STAR-CCM+ and ANSYS Fluent).

The Tosca optimization suite enables engineers to take full advantage of any improvement potential while leveraging advanced simulation capabilities. It creates optimized design concepts to achieve the highest performance, quality, and eco-efficiency in a shorter development time.

Tosca offers efficient optimization based on industry standard FEA (Abaqus, ANSYS, MSC Nastran) and CFD software (STAR-CCM+ and ANSYS Fluent).

Please contact us for more information.

FE-SAFE
fe-safe

The fe-safe was the first commercially available fatigue analysis software to focus on modern multiaxial strain-based fatigue methods and it continues to set the benchmark for fatigue analysis software

The fe-safe suite of software is world-leading technology for durability analysis from FEA, directly interfacing to all major FEA suites (Abaqus, ANSYS, Nastran (MSC, NEi, NX), Pro/Mechanica) and its capabilities have been developed to meet the most demanding industry applications.

fe-safe was the first commercially available fatigue analysis software to focus on modern multiaxial strain-based fatigue methods and it continues to set the benchmark for fatigue analysis software.

Regardless of the complexity of your fatigue analysis, fe-safe fits smoothly into your design process, enabling you to develop products that are designed for durability.

fe-safe is world-leading technology for durability analysis from FEA, directly interfacing to all major FEA suites (Abaqus, ANSYS, Nastran (MSC, NEi, NX), Pro/Mechanica) and its capabilities have been developed to meet the most demanding industry applications.

Please contact us for more information.

SIMPACK
simpack

Simpack is a general multibody simulation software which enables analysts and engineers to simulate the non-linear motion of any mechanical or mechatronic systems. Simpack enables engineers to generate and solve virtual 3D models in order to predict and visualize motion, coupling forces and stresses.

Simpack is a general multibody simulation software which enables analysts and engineers to simulate the non-linear motion of any mechanical or mechatronic systems.

Simpack enables engineers to generate and solve virtual 3D models in order to predict and visualize motion, coupling forces and stresses.

From initial concept designs, through to production and redesigns, Simpack is used to help engineers fully comprehend and optimize systems, vastly reduce the need for physical prototyping, reduce time-to-market and improve product quality and lifespan. In essence Simpack enables manufacturers to gain a competitive edge by offering the ability create high quality products in a time and materially efficient manner thus reducing overall costs in design, production and maintenance.

Simpack can be applied to any branch of mechanical engineering, but is used primarily within the following industry sectors:

  • Automotive
  • Engine
  • HiL/SiL
  • Power Transmission
  • Railway
  • Wind Energy

Simpack is the market leader for simulating transient non-linear system behavior with flexible bodies, even up into the acoustic range. Diversity and good connectivity to various control, hydraulic and FE software enable Simpack to be easily integrated into any manufacturer’s already-established development processes.

All Simpack features are 100% compatible. Therefore new software developments for one particular engineering field benefit all Simpack users regardless of the application area.

As part of the SIMULIA Brand, Simpack is now the strategic MBS component of the Dassault Systèmes 3DEXPERIENCE portfolio.

Simpack is a general purpose Multibody Simulation (MBS) software used for the dynamic analysis of any mechanical or mechatronic system. It enables engineers to generate and solve virtual 3D models in order to predict and visualize motion, coupling forces and stresses.

Please contact us for more information.

XFLOW
xflow

SIMULIA XFlow offers unique, particle-based Lattice Boltzmann technology for high fidelity Computational Fluid Dynamics (CFD). This state-of-the-art technology enables users to address complex CFD problems involving high frequency transient aerodynamics, real moving geometries, complex multiphase flows, fluid structure interactions and aero acoustics

Technology Breakthrough

When solving CFD problems of unsteady flow, which often arise due to flow across complex solid geometries, such as the exterior surface of an automobile, a traditional mesh-based approach to solving these problems is highly dependent on the quality of the mesh. This results in engineers spending most of the time working on the mesh discretization, rather then solving the engineering problem. Additionally, difficulties can arise when there are changes in the topology of the domain for problems involving the presence of moving parts or fluid-structure interaction.

SIMULIA XFlow offers unique, particle-based Lattice Boltzmann technology for high fidelity Computational Fluid Dynamics (CFD). This state-of-the-art technology enables users to address complex CFD problems involving high frequency transient aerodynamics, real moving geometries, complex multiphase flows, fluid structure interactions and aero acoustics.

XFlow’s automatic lattice generation and adaptive refinement capabilities minimize user inputs thereby reducing time and effort in the meshing and pre-processing phase of a typical CFD workflow. This enables engineers to focus the majority of their efforts on design iteration and optimization, rather than the time consuming meshing process.

With XFlow’s discretization approach, surface complexity is also not a limiting factor. The underlying lattice can be controlled with a small set of parameters; the lattice is tolerant to the quality of the input geometry and adapts to the presence of moving parts.

In addition, advanced rendering capabilities provide realistic visualization to gain deeper insight into flow and thermal performance. XFlow’s unique capabilities enable companies to reduce physical testing while making to make better design decisions faster.

XFlow offers unique, particle-based Lattice Boltzmann technology for high fidelity Computational Fluid Dynamics (CFD). This state-of-the-art technology enables users to address complex CFD problems involving high frequency transient aerodynamics, real moving geometries, complex multiphase flows, fluid structure interactions and aero acoustics.

Please contact us for more information.

ISIGHT & THE SIMULIA EXECUTION ENGINE
isight

Isight combine multiple cross-disciplinary models and applications together in a simulation process flow, automate their execution across distributed compute resources, explore the resulting design space, and identify the optimal design parameters subject to required constraints.

Isight and the SIMULIA Execution Engine (formerly Fiper) are used to combine multiple cross-disciplinary models and applications together in a simulation process flow, automate their execution across distributed compute resources, explore the resulting design space, and identify the optimal design parameters subject to required constraints.

Our proven simulation automation and optimization solutions enable engineering teams to:

  • Drastically reduce design cycle time through integrating workflow processes in an automated environment.
  • Deliver more reliable, better-quality products through accelerated evaluation of design alternatives.
  • Lower hardware investments through effective use of legacy systems and more efficient job distribution.
  • Eliminate the bottlenecks of ineffective communication by enabling secure design collaboration among partners.

Isight combine multiple cross-disciplinary models and applications together in a simulation process flow, automate their execution across distributed compute resources, explore the resulting design space, and identify the optimal design parameters subject to required constraints.

Please contact us for more information.

Contact Us

We're not around right now. But you can send us an email and we'll get back to you, asap.

Not readable? Change text. captcha txt