CAE solutions mainly involve the analysis and optimization of the structural mechanical properties of complex projects and products, including but not limited to strength and stiffness assessment, fatigue life prediction, explicit dynamics simulation, and structural optimization suggestions. These solutions use computer-aided engineering (CAE) technology to help engineers predict the performance of products under various working conditions, thereby optimizing product design, improving product performance, and reducing manufacturing costs.
Strength and stiffness assessment: Through in-depth analysis of the stiffness and strength performance of the product under specific working conditions, determine whether it meets the performance requirements of the design. This includes the analysis of complex factors such as nonlinear contact.
Fatigue life prediction: Based on the results of strength analysis, fatigue analysis software is used in combination with fatigue load spectrum and material property data to perform fatigue calculations on the product and evaluate its fatigue life under bending or radial conditions.
Explicit dynamics simulation: simulates the performance of products under transient physical phenomena such as impact and collision, and predicts whether the impact resistance of the product meets the design standards.
Structural Optimization Suggestions: Provide optimization suggestions for problems of insufficient or excessive strength and rigidity in product design, such as optimizing local structures to reduce material waste and cost increase.
These solutions can not only help engineers predict product performance during the design phase, but also conduct virtual tests on products before actual manufacturing, thus saving time and costs. Through CAE technology, engineers can optimize product design more efficiently, improve product quality, and meet customer needs.
