We adopt vacuum induction melting inert gas atomization powder milling technology, establish a continuously optimized closed-loop system through EN9100, ISO13485, ISO9001 and other quality management systems, and accept German Rheinland quality certificat.
It took us 5 years to improve the titanium alloy powder milling technology to the leading level, and we developed our own EIGA atomization equipment and automatic production line, with an annual output of more than 200 tons of titanium alloy powder.
We use improved vacuum air atomization technology to develop high-quality nickel alloy spherical powder for the field of additive manufacturing, with an annual output of more than 300 tons of powder, and develop different grades according to customer need.
We use the improved vacuum pressure atomization technology to provide high-quality spherical powder for the medical and consumer electronics fields. The annual output of cobalt-chromium alloy powder exceeds 300 tons, and the powder properties are adjusted.
Set research and development, production, processing, molding, testing and sales as one.
Additive manufacturing (3D printing) is based on the "discrete-stacking" principle, which directly realizes the rapid manufacturing of complex three-dimensional geometric structures, which is expected to trigger the next round of processing technology revolution. We have built our own 3D printing laboratory, post-processing and testing center to ensure the stability of powder products, while accelerating the update of additive manufacturing technology to provide customers with more effective material solutions.
Metal Injection Molding (MIM) combines two completely different machining processes, allowing for greater design freedom and enabling large-scale production of sophisticated and complex parts. From concept to creation, our team of experts works fully with you to ensure added value at every stage of the MIM process.
The combination of the coating material and the base material is realized by laser technology, and an alloy layer with completely different composition and properties from the base material is obtained to meet the needs of different application scenarios. We offer highly flexible solutions, adapting our product details to suit your needs.
Hot isostatic pressing (HIP) places the product in a closed container, applies equal static pressure to the product in all directions, and applies high temperature at the same time. Under the simultaneous action of high temperature and high pressure, the product can be sintered, densified or connected. HIP is an indispensable means for the production of high-performance materials and the development of new materials, which can achieve high density of products and improve mechanical properties. Panxing offers a range of HIP-specific products, and we are a partner in continuous innovation that makes all kinds of connections possible.