Aluminum Precision Turned Parts 1. The hardness of the material is moderate, and the tool wear of the machining equipment and CNC machining center is small. Aluminum Precision Turned Parts,Aluminum Cnc Turning Parts,Aluminium Cnc Turning,Cnc Turning Aluminum Parts Stand Dragon Industrial Co., Ltd. , https://www.standdragontw.com
2. It can be precisely machined into various geometric shapes such as plane, cavity, shell, sphere, arc, and anisotropy.
3. It is not easy to stain and maintain. Aluminum precision parts, precision parts processing, CNC processing
4. It has good durability and is not easy to corrode. With special treatment process, the service life of parts is longer.
5. Aluminum is environmentally friendly and can be 100% recycled, with high recycling value.
The above five points are the material characteristics of aluminum products. Aluminum is a common material in CNC precision parts processing, with moderate hardness, durability and corrosion resistance. In addition, the cost of materials is appropriate. It is the preferred material for most parts manufacturers.
Jinggong High-Purity Silane Gas High Purity Polysilicon Makes a Major Breakthrough
Recently, Jinggong Technology received an important notice from its subsidiary, Zhejiang Jinggong New Material Technology Co., Ltd. (referred to as "Jinggong New Materials"). According to the information provided by Jinggong New Materials, they collaborated closely with the technical team of Jinggong Technology on a groundbreaking technology development project. This project focused on producing high-purity silane (SiH4) using the kiloton oximation process, and it has achieved significant progress in recent months.
Thanks to the joint efforts of Jinggong New Materials and Jinggong Technology's technical experts, a high-purity silane production technology package has been successfully developed, fully compliant with domestic regulatory requirements. This achievement is particularly noteworthy because it addresses a critical gap in domestic technology for high-purity silane production. The technology was built upon the existing "cold hydrogenation" process platform of Jinggong New Materials and underwent rigorous R&D over the past year, resulting in a successful outcome.
The core of this technology lies in its innovative process, which primarily uses trichlorosilane as the starting material. Under catalytic conditions, this compound is oxidized into dichlorodihydrogen silicon, followed by deuteration to produce silane. After purification, the final product is high-purity electronic-grade silane gas. This entire process not only demonstrates cutting-edge scientific expertise but also represents a leap forward in domestic industrial capabilities.
High-purity silane gas plays a crucial role in semiconductor manufacturing and the production of high-purity polysilicon. It significantly reduces the cost of polysilicon production, making it a game-changer in the industry. Given its importance, this technology has already entered the market. Jinggong New Materials has signed a related technical project contract with their first client and has even received an initial deposit for project implementation.
Looking ahead, this breakthrough opens up vast opportunities for domestic industries, especially in semiconductor materials and renewable energy sectors. It underscores Jinggong Technology's commitment to innovation and sustainable growth. As we move forward, I believe this technology will continue to drive advancements and contribute to the global supply chain of high-quality materials.