Perform FEA (Finite Element Analysis) static structure stress analysis and thermal stress analysis on multiple casting parts. The objective is to predict the stress, deflection, temperature, and other crucial characteristics that these parts might undergo under various conditions.
In the static structure stress analysis, the simulation seeks to understand how these casting parts will react under different loads. Through this analysis, the high-stress regions can be identified and the distribution of stresses can be visualized over the entire part. This aids in evaluating the design strength and predicting possible failure points.
The thermal stress analysis, on the other hand, investigates the behavior of the casting parts under different temperatures. This analysis is critical in understanding how these parts will respond to temperature changes, which can influence their functionality or lead to potential failure. Key metrics like temperature distribution, thermal expansion, and resultant thermal stress are analyzed.
Furthermore, FEA facilitates the comparison of various casting parts. The data can be used to refine the design, reduce material usage while maintaining performance, and optimize manufacturing processes. It is a powerful tool that allows engineers to simulate real-world conditions in a controlled, virtual environment and make accurate predictions about the durability and longevity of the product. This ability to predict and address potential issues before physical prototyping saves time and cost, making FEA an essential part of the product design process.
Contact Us if you would like to run FEA steady or transient thermal analysis.