The development trend of MIM

                                   The development trend of MIM

Metal Injection Molding TechnologyMore than 20 years of development, the world about500A number of companies and research institutions engaged in metal injection molding technology work, products have been applied to all walks of life, the material system is also very extensive, but.2003At the end of the year, the globalMIMThe total product market value is only10Billion U.S. dollars, much lower than various forecasts, is far from being able to be used with machining, precision casting, pressing/A processing technology that rivals processes such as sintering.

In recent years, metal injection molding technology is mainly developed in two directions: the expansion of the applicable material system, and the high reliability production equipment developed to meet the unique binder and degreasing technology. Performance for the following characteristics:

 1Multi-directional expansion of material system.

2The diversification of binders and the multi-path degreasing technology..

3More advanced, more precise control equipment.

4Good momentum of enterprise development.

  As a near-net-shape technology for manufacturing high-quality precision parts, metal injection molding has incomparable advantages over other processing methods. From the first proposed the concept of metal injection molding to now a short period of more than 20 years, the technology has developed into a global scale industry. With the continuous progress of science and technology and the continuous improvement of the theoretical system, this technology will be applied in more industries and become a kind of parts processing method similar to machining, precision casting, powder metallurgy molding sintering process and so on.




What is the difference between injection and injection in metal injection molding?

Metal injection molding, also known as injection molding, is a molding method that has both injection and molding. The invention has the advantages of fast production speed, high efficiency, automatic operation, diverse colors, simple to complex shapes, and large to small sizes. Moreover, the product size is accurate, the product is easy to update, and it can be made into parts with complex shapes. Metal injection molding is suitable for mass production, complex shape products and other molding processing fields.


What are the characteristics of tungsten alloy powder metallurgy?

Tungsten alloy powder metallurgy is the production of powder or powder (or powder and non-powder mixture) as raw materials, after molding and sintering, production, composite and various types of objects process. The powder metallurgy method is similar to that of powder sintering, so a series of powder metallurgy can also be used for the production. Due to the advantages of powder metallurgy, it has become the key to solve the problem and plays an important role in the development of our powder metallurgy industry.


What is the process of tungsten alloy powder metallurgy?

Tungsten alloy powder metallurgy is the production of powder or metal powder (or powder and non-metallic powder mixture) as raw materials, after and, the production of metal materials, composite materials and various types of industry. Powder metallurgy is widely used in transportation, electronics, aerospace, weapons, biology, new energy, information, nuclear industry and other fields, and has become one of the dynamic fields in new material science. Tungsten alloy powder metallurgy has considerable energy saving, saving, characteristics, accuracy, stability and other advantages, suitable for large-scale production. In addition, materials and complex parts that cannot be used for traditional casting and preparation can also be made by powder metallurgy, so


Preparation method of iron-based metallurgy with high strength and high thermal conductivity

The preparation method of iron-based metallurgy is simple, and the mass fraction of aln in the iron-based alloy is adjusted according to the amount of aln powder added in the mechanical alloying process, so as to reduce the density of the material, improve the mechanical properties and high temperature physical properties of the material.