As the mechanical manufacturing industry transitions toward lightweight and high-performance applications, aluminum alloy
die casting has emerged as a pivotal forming technology due to its lightweight material properties and high molding efficiency. To enhance
product quality and production stability while driving technological advancement, this study integrates material forming and control engineering principles to explore practical applications in raw material selection, mold design, forming control, and quality inspection for
aluminum alloy die casting. Supported by case studies of integrated die casting for new energy vehicle chassis, the research demonstrates
that advanced material forming and control engineering techniques can effectively optimize casting processes, reduce defect generation,
and improve product yield rates, thereby providing technical support for the high-quality development of aluminum alloy die casting in
mechanical manufacturing.

Materials Forming and Control Engineering; Aluminum Alloy Die Casting; Mechanical Manufacturing; Intelligent Control; Quality Inspection

[1] Wang W. Selection of metal materials and processing methods in material forming and control engineering [J]. Metallurgy and Materials, 2025, 45(09):67-69.

[2] Zhu Zheyi. Analysis of Metal Material Processing in Materials Forming and Control Engineering [J]. Metallurgy and Materials, 2025,

45(03):103-105.

[3] Zhou Zhiqiang, Wei Guangli, Wang Lijie, et al. A new process for W-type cast aluminum water-cooled machine base die casting [J].

Foundry Equipment and Technology, 2020, (01):6-7.