The widespread application of spark erosion machining (EDM) technology in the automotive industry is reshaping the entire manufacturing process. As a high-precision and high-efficiency processing equipment, EDM can machine complex-shaped and high-hardness molds, particularly suitable for manufacturing automotive engines, transmission systems, and body molds‌. Its non-contact processing method overcomes the limitations of traditional cutting techniques, significantly improving machining accuracy and component lifespan‌. Additionally, the adoption of EDM shortens production cycles, reduces costs, and provides robust support for innovative design and rapid iteration in the automotive industry‌. In the increasingly competitive market, EDM has brought technological innovation and competitive advantages to automakers, enabling intelligent and efficient production‌.

The introduction of spark erosion machining (EDM) technology has revolutionized the plastic mold industry. Utilizing a non-contact electrical discharge process, EDM overcomes the limitations of traditional cutting methods, enabling the precise fabrication of complex and intricate mold details‌. This capability is particularly advantageous for producing high-hardness and high-precision molds, enhancing both machining accuracy and durability while reducing wear and extending service life‌.

The high efficiency of EDM significantly shortens production cycles, accelerating mold development and meeting the rapid iteration demands of plastic product markets‌. For the plastic mold sector, EDM serves not only as a critical tool for technological advancement but also as a core driver of high-quality industry development‌.