The company has passed ISO9001:2015 certification, and has been recognized by many customers for its excellent quality.
The company has been committed to the development, optimization and improvement of manufacturing technology, and has obtained ten patent certificates.
The company has injection molding machines, CNC machining centers, precision CNC lathes, as well as gold-plated and silver-plated production lines.
The company continues to improve in order to ensure the interests of customers and fully meet customer product needs.
Founded in 2005, WinWay is a Hong Kong based enterprise, which is located in Changan Town, Dongguan City.
WinWay focuses on providing you with precision machining, precision tooling, etching lid, precision hardware, precision mechanical, metal injection, precision metal, CNC precision, Precision Plating, CNC parts, Optical Communication Parts and Precision Medical Parts, high-mix/small-volume and Low-mix/high-volume manufacturing services.
MIM has higher requirements for raw material powder. The choice of powder should be conducive to mixing, injection molding, debinding and sintering, which are often contradictory. The research on MIM raw material powder includes: powder shape, particle size and particle size composition, specific surface Etc., Table 1 lists the properties of the raw material powder most suitable for MIM.
Due to the very fine requirements of MIM raw material powder, the price of MIM raw material powder is generally higher, and some even reach 10 times the price of traditional PM powder. This is a key factor limiting the wide application of MIM technology. The main method of producing MIM raw material powder is carbonyl. Method, ultra-high pressure water atomization method, high pressure gas atomization method, etc.
The application of MIM injection molding technology in digital electronics is mostly mobile phones and laptops, such as mobile phone metal trays, volume buttons, mobile phone interfaces, camera frames, hinges, precision parts for lifting cameras, and precision dual-camera and triple-camera cameras. Parts, laptop shafts, gears, etc.
Metal injection molding is widely used in orthodontic bracket parts, surgical instruments, implantable MIM parts, knee implant parts, etc.
MIM parts used in automobiles are generally iron-based materials, such as engine rocker arms, shift levers, turbocharger blades, sensors, etc.
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High precision, very good processing, good chamfering
MIM parts are often used as-sintered, but machining, heat treating, plating and other processes can be applied to the sintered part. Parts that distort during sintering can be coined or otherwise straightened afterward. In special applications where 100 percent density is required, a hot isostatic pressing (HIP) process is used. Debinding furnace.
Iron-based, low-alloy, high-speed steel, stainless steel, gram valve alloy, cemented carbide, etc. are all suitable for MIM forming.
The basic process of metal injection molding (MIM) is: First, the solid powder is uniformly mixed with the organic binder, and after granulation, it is injected into the mold cavity with an injection molding machine under heating and plasticizing state (~150℃) to solidify and shape. Then use chemical or thermal decomposition to remove the binder in the molding. Finally, the final product is obtained by sintering and densification.
Metal injection molding technology is very good for making some precision, complex, small metal parts,
Generally suitable for the MIM process of metal parts are: 1. Complexity; 2. Precision (the reference design of MIM net molding accuracy is usually ± 0.5% of the size); 3. Weight and size (MIM is especially suitable for parts weighing less than 100 grams, and less than 50 grams is the most economical application); 4. Thinning (wall thickness less than 6 mm is the most suitable for MIM)