Precision casting technology is related to the quality of molds
Die casting is one of the important processes in the production of turbine parts, and its precision casting technology is related to the quality of molds, which in turn affects the quality of turbine parts.
Die casting is one of the important processes in the production of turbine parts, and its precision casting technology is related to the quality of molds, which in turn affects the quality of turbine parts. Analyzing the precision casting technology of molds is beneficial for the development of molds.
Die casting is a precision forming process related to the production of metal parts, which generally occurs in the process of determining the shape and size of metal parts. Die casting technology was born in the 1940s, and its development has never stopped since its inception until now. Die casting is the most commonly used production process in non-ferrous metal casting, with about 60% of aluminum alloy castings using the die casting production process. In this century, die-casting technology has been widely used in the manufacturing process of light metal castings, such as aluminum castings and magnesium castings.
The automotive industry in China is one of the main industries that adopt die-casting technology. On the one hand, it is the increasing demand for automobiles, and on the other hand, the demand for automotive components and supporting products is constantly increasing. Therefore, the production prospects of die-casting are broad; From another perspective, the construction industry, mechanical equipment and instruments, motorcycle industry, lock making industry, and electronics industry have also provided good external conditions for the development of the die-casting industry. Due to the rapid development of technology in the die-casting industry, there has been a fundamental transformation. However, China's die-casting industry is generally at a backward level. In order to shorten the distance from the die-casting industry in developed countries, we need to devote ourselves to the development of new injection systems; Optimize the control system, improve the sensor system, improve the stability of the die-casting production process, and ensure that every injection pressure is consistent with
The ideal injection curve set in advance is close to each other; Improve the quality of die-casting parts, making them develop towards complexity, large-scale, thin-walled, and high toughness; Continuously developing new die casting technologies; Committed to the development of spraying technology; Constantly exploring new die-casting alloy materials, metal matrix composite, die-casting magnesium alloys and other new die-casting alloy materials have emerged; Apply modern management theory to improve management level.