Altair SimSolid for Structural Analysis 2024.0
Altair SimSolid is an innovative structural analysis software designed for professionals who need to rapidly evaluate design options. Unlike traditional finite element analysis (FEA) tools, SimSolid does not require geometry simplification, meshing, or post-processing steps that are typical of traditional FEA applications. This enables engineers to analyze complex parts and large assemblies quickly and with high accuracy. Key features of SimSolid include the ability to analyze complex assemblies under a variety of loading conditions, the capability to handle geometrically complex models directly from CAD systems without the need for de-featuring or simplification, and advanced material modelling including nonlinear metals, plastics, and composites.
Altair SimSolid License Key have focused on improving its usability, speed, and accuracy. Enhancements include expanded material libraries and more comprehensive modelling of material nonlinearities, allowing for more accurate simulations of real-world materials. There has been a significant improvement in the integration capabilities with major CAD systems, ensuring smoother workflows from design to analysis. Additionally, the latest version includes enhanced visualization tools that provide clearer insights into stress, displacement, and other critical factors, helping engineers to make more informed decisions about design modifications and optimizations.
How does SIMSOLID’s workflow compare to classical FEA? Here’s an example of a 214-part assembly with a range of multi-scale elements – large and small, thick and thin walls. SIMSOLID provides answers to guide design intent in minutes. Analysis can be performed to assess each design iteration. Traditional FEA is impractical to incorporate analysis into the design workflow due to the complexity of the geometry simplification and meshing processes.
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Altair SimSolid Key Features:
- SimSolid is distinguished by its unique approach to structural analysis, designed to streamline the workflow for engineers and designers. Unlike traditional finite element analysis (FEM) software, SimSolid works directly on fully featured CAD assemblies without the need for meshing, significantly reducing the pre-processing time.
- The software performs simulations directly on CAD geometry, eliminating the need to simplify models or create meshes, which are typically time-consuming steps in traditional FEA.
- Despite skipping the meshing process, SimSolid provides high-fidelity results rapidly, making it possible to perform multiple design iterations in a short period.
- altair sim solid is capable of handling large and complex assemblies, offering insights into the structural performance of the entire system under various loading conditions.
- Supports a wide range of material properties, including nonlinear elastic, plastic, and even composite materials, enabling realistic simulation outcomes.
- Next generation, high-capacity structural FEA.
- It employs novel computational methods that act on original, unsimplified CAD geometry and does not generate a mesh.
- Solve large assemblies using a standard desktop computer.
- The ideal complement to your current CAE-specific or CAD-embedded Simulation.
- It expands its analysis scope to include larger models and offers feedback in seconds to minutes.
- This is how design analysis is intended to work: quickly, robustly, and accurately.
What’s New in Altair SimSolid:
- Improved compatibility with major CAD systems enhances the workflow, allowing users to import and update models directly from their CAD software without intermediate steps.
- The addition of more materials and the ability to accurately simulate complex material behaviors make it possible to model more diverse scenarios and applications.
- New visualization options for stress, displacement, and other critical factors help in better understanding the analysis results, facilitating more informed design decisions.
- Altair SimSolid Patch Algorithmic optimizations have been implemented to speed up the analysis even further, especially for very large and complex assemblies.