Linear Stress Analysis
Engine Stand Statics Results
Linear stress analysis with SolidWorks Simulation enables designers and engineers to quickly and efficiently validate quality, performance, and safety—all while creating their design.
Tightly integrated with SolidWorks CAD, linear stress analysis using SolidWorks Simulation can be a regular part of your design process, reducing the need for costly prototypes, eliminating rework and delays, and saving time and development costs.
Linear Stress Analysis Overview
Linear stress analysis calculates the stresses and deformations of geometry given three basic assumptions:
- The part or assembly under load deforms with small rotations and displacements
- The product loading is static (ignores inertia) and constant over time
- The material has a constant stress strain relationship (Hooke’s law)
SolidWorks Simulation uses finite element analysis (FEA) methods to discretize design components into solid, shell, or beam elements and uses linear stress analysis to determine the response of parts and assemblies due to the effect of:
- Contact between components
Loads can be imported from thermal, flow, and motion Simulation studies to perform multiphysics analysis.
In order to carry out stress analysis, component material data must be known. The standard SolidWorks CAD material database is pre-populated with materials that can be used by SolidWorks Simulation, and the database is easily customizable to include your particular material requirements.