Metal Injection Molding(MIM)
MIM Material Introduction: High Strength Steel
With the advent of foldable phones, the traditional MIM stainless steel materials used in mobile phones can no longer meet the requirements of mechanical structure strength. If titanium alloy with low specific gravity and high strength is used instead, there are two problems: high price and reliability of properties. We must find higher strength and wear-resistant materials to meet the requirements of light, thin, short and small.
Advanced Materials Used In 3C Industry : MIM
The 3C industry uses a very high proportion of MIM-made parts. The important thing is that most 3C products will be in direct contact with human skin. Products that come into contact with the human body must pass skin sensitivity testing to avoid allergic reactions in people with specific sensitive skin. How to choose right material for product is one of important things.
Introduction of Pure Copper MIM Applications in 3C, Biological and Medical Industries
SZS developed copper feedstock for the MIM process. Pure copper has excellent electrical conductivity, thermal conductivity, anti-magnetic and antibacterial properties. The following list is used in the 3C, biological and medical industries of pure copper MIM in various countries all over the world.
Metal Injection Molding vs Die Casting: A Comparative Analysis
Discover the differences in metal injection molding vs die casting: explore the uses, pros and cons of metal injection molding vs die casting.
Metal Injection Molding (MIM) Advantages And Disadvantages
Explore metal injection molding advantages and disadvantages. Understand key metal injection molding advantages and disadvantages.
What is MIM? An Introduction to Metal Injection Molding
What is MIM? Metal Injection Molding(MIM) is a manufacturing process where metal powder and binder are combined to form a feedstock and then solidified.