05/02/2024
Every process in MIM technology is filled with variables, and different variables can lead to vastly different product qualities. As the starting point of the production process, the feeding technology also presents its challenges.
As experts in MIM technology for stainless steel tableware and kitchenware, we have been closely monitoring the latest developments in MIM research institutions. In Yangjiang, as the world-class industrial center for kitchen knives and kitchen hardware products, the most commonly used powder alloy material we apply is nitrogen-containing nickel-free stainless steel. Nitrogen-containing nickel-free stainless steel exhibits excellent mechanical properties, biocompatibility, creep resistance, corrosion resistance, and wear resistance, among other comprehensive properties. Compared to traditional stainless steel, its performance far surpasses, especially in terms of mechanical properties, biocompatibility, and corrosion resistance, marking a qualitative leap.
The design of powder injection molding feeding in the MIM process is the premise and foundation of the entire MIM process, running through the entire MIM process with guiding and critical roles. The feedstock is formed by uniformly mixing metal powder with a binder polymer, and the ratio of metal powder loading to binder determines the performance of the feedstock. Therefore, optimizing the powder content and binder system's optimal ratio has extensive and profound significance.
In order to promote the application of MIM technology in civilian products, we are willing to share our research results to a limited extent. Please follow our account, as we will periodically announce the latest research findings.