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In terms of performance, new energy prototype parts often have higher efficiency and wider applicability.

New energy prototype parts have significant advantages in the design of electric vehicle battery packs, such as lightweight, corrosion resistance, design flexibility, cost-effectiveness and environmental protection.

High-precision machining not only requires the size, shape and position accuracy of parts to reach an extremely high level, but also requires that the finish and microstructure of the machined surface meet specific requirements.

In the rapid development of new energy technologies, new energy prototype parts, as core components, have become important indicators for measuring their performance in terms of reliability and durability.

The injection molding process, with its high efficiency, precision and flexibility, has become an important support for rapid prototyping integrated design.

As an important part of modern industrial manufacturing, the optimization of the physical properties of machined parts is crucial to improving the reliability and service life of the overall equipment.