Heat-free die casting + precision alloy iteration empowers the customization and upgrading of high-end components.

In 2026, China's die-casting industry officially bid farewell to the era of equipment tonnage competition and entered a new stage of high-quality competition based on refined processes and high-end new materials. With the upgrading demands of the new energy equipment and high-end European construction machinery markets, the pain points of traditional die-casting processes, such as deformation, porosity, and insufficient precision, have become the core direction for industry upgrading and transformation.

Currently, heat-treatment-free aluminum alloy die-casting technology has become the mainstream mass production technology, completely revolutionizing traditional production processes. This process eliminates the need for subsequent T6 and T7 heat treatment processes, effectively solving the problems of warping and cracking in large die-cast parts. It not only reduces production costs by 15%-25% but also significantly shortens order delivery cycles. It is perfectly suited for the mass production of motor housings, equipment brackets, and precision structural parts, and is currently a core technological advantage for exporting to high-end markets.

For the field of special parts for construction machinery and hydraulic equipment, special wear-resistant alloy die-casting technology continues to iterate. Lead-tin-antimony alloy, as a core material for high-end wear-resistant custom parts, has been optimized through vacuum die casting and rare earth modification processes. This effectively reduces material segregation, improves casting density and wear resistance, and extends service life. Simultaneously, it strictly complies with EU RoHS and REACH environmental standards, solving the problems of poor precision, weak durability, and export compliance difficulties associated with traditional wear-resistant castings.

In the future, our company will continue to deepen its research and development in precision die casting processes. Relying on advanced technologies such as high-vacuum die casting and simulation molding, we will focus on upgrading the quality of both general-purpose aluminum alloy parts and custom-made special wear-resistant alloy parts, continuously providing domestic and international customers with high-precision, high-stability one-stop die casting customization solutions.