Machinery Tools
We create intricate and high-performance components that enhance the efficiency and durability of your power tools. From gears to handles, our MIM solutions ensure precision, strength, and longer tool life.
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ELECTRONICS INDUSTRY APPLICATIONS OF MIMMIM is widely applied to electronic industry. Especially, the development of mobile phone, communication and optical fiber industries has driven the industrialize development of MIM industry, and the parts of this industry are required to have high precision a
Metal Injection Molding (MIM) is a manufacturing process that combines the flexibility of plastic injection molding with the strength and integrity of powdered metallurgy. This method is particularly advantageous for producing complex and high-performance automotive components. However, achieving hi
Metal Injection Molding (MIM) is an advanced manufacturing process that combines metal powders with a binder material to form complex and high-precision metal parts. Due to the high demands on material performance and product quality, the selection and characteristics of metal powders used in MIM ar
The elastic modulus of powder metallurgy materials refers to the ability of the material to resist deformation within the elastic deformation range, which is the ratio of stress to strain. The elastic modulus of powder metallurgy materials is usually slightly lower than that of traditional cast or f
In Metal Injection Molding (MIM), product quality assessment is crucial. To ensure high quality of MIM products, various testing technologies are employed to evaluate their internal and external properties. Below are several common testing technologies and their applications in MIM product quality a
Iron-based materials are widely used in Metal Injection Molding (MIM) due to their good overall performance and relatively low production cost. When using MIM for iron-based materials, it is crucial to consider the shrinkage rate, as it affects the final part's dimensional accuracy and shape toleran
Metal Injection Molding (MIM) Technology: Maximum Part SizeMetal Injection Molding (MIM) technology is mainly used for manufacturing small and medium-sized parts, but under certain conditions, larger parts can also be produced. Below is a detailed discussion of the factors influencing the maximum si
Recently, Jiangsu Mimo Held a Mechanical Injury Prevention Drill in the Finishing WorkshopThe drill aimed to improve employees' safety awareness and ability to respond to emergencies. Organized by the company's management department, the participants included frontline production workers, the safety
To address potential electric shocks, leaks, and other safety accidents that may occur during production, as well as to efficiently, timely, and orderly organize rescue and disaster relief efforts after an accident, minimizing casualties and losses, Jiangsu Mimo Metal Co., Ltd. organized an electric
selecting powder alloys suitable for MIM processes requires careful consideration of flowability, sintering performance, chemical composition, thermal properties, mechanical performance, and corrosion resistance.
On the afternoon of June 17, 2024, MIMO Metal held a company-wide fire drill aimed at enhancing employees' awareness of fire safety and emergency response capabilities. The drill proceeded strictly according to the planned protocol, from fire alarm activation to emergency evacuation, on-site firefig
On a sunny afternoon, MIMO Metal Company celebrated a special event—the Employee Birthday Party. The theme was "Happy Work, Happy Life," to thank employees for their hard work and to bring warmth and care to everyone.Colorful and Fun VenueAs soon as you walked in, you saw colorful balloons and beaut
IntroductionMetal Injection Molding (MIM) is a versatile manufacturing process that combines the design flexibility of plastic injection molding with the material strength of powder metallurgy. MIM is capable of producing complex shapes and high-precision components, including threaded parts. This r
Current precision parts have strict requirements for precision, precision machining if adhering to the traditional technology, in this market will only appear more and more difficult. For example, aluminum parts processing, it is very easy to find suppliers for products with no requirements for accu
Machined surface roughness is too large and too small will not wear. CNC machining surface roughness is too large, the actual pressure of the contact surface increases, rough convex peaks bite each other, crack, cut off, so wear intensifies;On the other hand, the machining surface roughness is too s
BENEFITS OF METAL INJECTION MOLDING (MIM)✓ 96-98% of Theoretical Density✓ Excellent Mechanical Properties✓ Avoids Costly Secondary Operations✓ Excellent Surface Finishes✓ Capable of Extreme 3-D Geometries✓ Holds Tight Tolerances✓ Extremely Thin Wall Section Capabilities