Translated
Computer simulation technology has been widely used in the production of automotive forgings, making the design and production of automotive components more efficient and accurate. In this article, we will take a high-performance automotive forging manufacturer as an example to illustrate the application of computer simulation technology in practical production.
The company produces high-performance automotive forgings with perfect durability, toughness, and lightweight characteristics. In the traditional forging production process, designers need to rely on previous experience and trial and error to design and improve, which is time-consuming and error-prone. However, the company introduced computer simulation technology to speed up the design and production efficiency, at the same time, reduce costs and improve quality.
With computer simulation technology, company designers can build models on the computer, simulate material flow, and explore possible material structures and shape choices, which enables them to design forging prototypes that meet the requirements of high-performance cars faster and more accurately.
For example, when designing a new crankshaft pin forging, the company used computer simulation technology to create a complex-shaped part, while significantly reducing the weight of the crankshaft pin forging. Actual testing showed that this new type of crankshaft pin forging can withstand higher loads and working intensities, and has no failure records during long-term use.
In summary, computer simulation technology has brought significant changes to the production of automotive forgings, making the design and production process simple and efficient, and can also improve product performance and quality. By continuously applying computer simulation technology, automotive forging production companies can significantly shorten the design cycle and effectively improve production efficiency and product market competitiveness.
