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.
News
MIMO is expanding, and we are looking for talented and dedicated individuals to join our team! We offer competitive salaries, social benefits (Five Insurances & One Fund), free meals, and accommodation. If you are looking for a stable and rewarding job, apply now! Job Openings:1. Machine Operators
Here’s to a fantastic start! Wishing everyone a successful and prosperous new year!
IntroductionSurface densification is a crucial post-processing technique in powder metallurgy (PM) that enhances the mechanical strength, wear resistance, and durability of sintered components. By increasing surface density, PM parts achieve better load-bearing capacity, making them suitable for hig
IntroductionShot blasting is a critical surface treatment process in powder metallurgy (PM) that improves surface quality, removes impurities, and enhances mechanical properties. This process is widely used to improve the appearance, strength, and functionality of PM components, making them suitable
IntroductionCracking is a common defect in Metal Injection Molding (MIM) that can occur at various stages of the process, including molding, debinding, and sintering. If not properly controlled, cracks can compromise the mechanical properties and functionality of the final part. Based on extensive i
IntroductionIron-based powder metallurgy (PM) parts are prone to rust due to their iron content, especially in humid or high-temperature environments. Black oxide treatment is commonly used to improve surface corrosion resistance, but additional protective measures are essential for long-term durabi
De-molding in Powder Metallurgy Injection Molding (MIM): A Unique ProcessPowder Metallurgy Injection Molding (MIM) is a technology that combines metal powders with binders and uses injection molding to create complex parts. Many people wonder: "Do MIM products require de-molding?" The answer is yes,
Powder Metallurgy Injection Molding (MIM): A Precision Manufacturing ProcessPowder Metallurgy Injection Molding (MIM) is a highly efficient and precise manufacturing process widely used in the automotive, medical device, and electronics industries. However, to ensure that MIM parts possess high prec
In the field of powder metallurgy, the quality of raw materials directly determines the performance and stability of the products. As a company with extensive experience in Metal Injection Molding (MIM), Mimo has always adhered to high standards in selecting steel powders to ensure product quality f
In the field of Metal Injection Molding (MIM), minimum wall thickness is a key indicator frequently mentioned in design and manufacturing processes. It directly affects the feasibility of part production, performance, and manufacturing costs. For many industries that pursue precision and lightweight
MIMO Chinese New Year Holiday NoticeHoliday TimeHoliday from January 25, 2025 to February 4, 2025, a total of 11 days. Work will resume on February 5, 2025 (Wednesday).
As the New Year approaches, MIMO held its grand annual meeting at the end of 2024, themed "Together We Create and Reach New Heights." This meeting was not only a summary of the achievements from the past year but also a look ahead to the promising future. All employees gathered together to share in
Iron-based powder metallurgy (PM) components are known for their excellent mechanical properties and cost-effectiveness, making them a popular choice in industries requiring strong, durable materials. The pressure resistance of such components largely depends on factors like material composition, ma
Powder Metallurgy Injection Molding (MIM) combines plastic injection molding with powder metallurgy technology, offering an efficient method for manufacturing complex metal parts. In the MIM process, annealing plays a critical role in determining the mechanical properties, microstructure, and dimens
Powder metallurgy (PM) technology is widely used in the preparation of brake pads due to its ability to produce components with precise dimensions, excellent performance, and cost efficiency. This process has proven particularly advantageous in automotive, rail transit, and industrial machinery appl
MIMO Metal recently held a joyful celebration for employees with birthdays in December. The event was filled with laughter and warmth as colleagues gathered to honor the special day for their team members. A beautifully decorated birthday cake and thoughtful gifts were prepared, showcasing the compa
The torque performance of powder metallurgy (PM) gears has garnered significant attention due to their wide application across various industrial sectors. Typically, the torque range for PM gears can reach between 10 to 200 Nm, depending on factors such as material selection, manufacturing processes
At MIMO, we take pride in leveraging advanced Metal Injection Molding (MIM) technology to manufacture high-precision biopsy forceps. This innovative process combines the design flexibility of plastic injection molding with the strength and durability of metal, enabling the production of complex medi
At MIMO Metal, we leverage cutting-edge Metal Injection Molding (MIM) technology to produce high-performance gears and racks. From rotating gears and locking teeth to racks and double helical gears, our products excel in precision, strength, and durability. They are widely used in industries such as
1. High Precision and DensityMIMO Metal employs advanced powder metallurgy techniques to ensure precise dimensions and uniform density for keyways. With strict process control and quality inspection, our keyway products provide perfect compatibility during assembly, guaranteeing stability and durabi
