With the promotion and strengthening of the green and low-carbon development concept by the country, environmentally friendly industries are gradually becoming the trend of future development. In the field of stainless steel forgings, plastic injection molding technology can achieve high precision, high production efficiency, and energy-saving environmental protection goals, and has broad application prospects.
Firstly, from the perspective of national policies, China is vigorously promoting the “Made in China 2025” strategy, proposing green and intelligent directions to promote industrial upgrading and transformation. At the same time, in order to create a more environmentally friendly and energy-saving manufacturing model, the state has successively issued a series of related policies, such as the “Energy-saving and Emission-reduction Technology Policy Guidelines”, “Made in China 2025”, “Industrial Energy Saving Technology Plan”, etc. These policies provide a strong guarantee for the development of new industrial technologies, and also provide a good policy environment for the promotion of plastic injection molding technology in the field of stainless steel forgings.
Secondly, in practice, many companies have actively applied plastic injection molding technology and achieved significant results. For example, a stainless steel forging factory in Yancheng City, Jiangsu Province, has adopted plastic injection molding technology, which has greatly reduced production costs and energy consumption, while improving the precision and quality stability of stainless steel forgings. In addition, a stainless steel forging company in Changsha City, Hunan Province, is also actively exploring in this field, using 3D printing technology combined with plastic injection molding technology to design and manufacture stainless steel forgings with high complexity and high precision, which has attracted wide attention in the industry.
The application prospects of plastic injection molding technology in the field of stainless steel forgings are broad. On the one hand, this technology can greatly improve the production efficiency and quality stability of stainless steel forgings, and achieve high precision, environmental protection and energy saving goals. On the other hand, in order to meet the requirements of the state for green and energy-saving development, vigorously promoting this technology is also an inevitable choice for the future upgrading of the stainless steel forging industry. Therefore, while promoting and applying this technology, companies also need to strengthen scientific research and innovation, provide more technical support and technological progress for the development of this technology, and promote the transformation and upgrading of the stainless steel forging industry.
