SOLIDWORKS Simulation Premium

You can efficiently evaluate your designs for nonlinear and dynamic response, dynamic loading, and composite materials with the powerful tools of SOLIDWORKS Simulation Premium. SOLIDWORKS Simulation Premium adds to the capabilities of SOLIDWORKS Simulation Professional to provide valuable insights to improve product reliability in the most cost effective manner, no matter the material or use environment.

Simulation Premium solutions include:

      • Drop Test Analysis – Find out quickly and efficiently how dropping a product onto a surface will affect its structural integrity.
      • Thermal Structural Analysis – Determine thermal effects on a given design—or the impact of design changes on component temperatures—using fast, efficient thermal structural analysis with SOLIDWORKS Simulation.
      • Plastic and Rubber Part Analysis – Quickly and efficiently carry out stress analysis of plastic components and rubber parts with SOLIDWORKS Simulation while you design to optimize material selection and part design, ensuring high product quality, performance, and safety.
      • Vibration Analysis – SOLIDWORKS Simulation provides detailed vibration data through frequency analysis and dynamic analysis to ensure product performance and safety.
      • Frequency Analysis – Quickly and efficiently investigate the natural frequencies of a design—with and without loads and boundary conditions—with easy-to-use SOLIDWORKS Simulation. Ensure that the natural modes of vibration are away from environmental forcing frequencies, indicating that the design will meet the required service life.
      • Finite Element Analysis – Efficiently optimize and validate each design step using fast-solving, CAD integrated SOLIDWORKS Simulation to ensure quality, performance, and safety.
      • Linear Stress Analysis – Linear stress analysis calculates the stresses and deformations of geometry given three basic assumptions namely: 1. The part or assembly under load deforms with small rotations and displacements, 2. The product loading is static and constant over time, 3. The material has a constant stress strain relationship (Hooke’s law).

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