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China, Chinese Metal Injection Molding MIM Titanium Alloy Parts for Complex Machinery Components1 Industrial Products Supplier Manufacturer Details, price list catalog:
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Shenzhen Greelife Technology Co., Limited
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Product Description We offer OEM steel parts & accessories for electornic appliances , mechanical device machine parts through metal injection molding process , powder metallurgy . The MIM process consists of four primary steps, which utilize key processes to produce metal injection molded parts with superior quality and dimensional repeatability:Feedstock Mixing It is critical to ensure the homogeneity of the feedstock, as it consists of very fine metal powders (less than 22 microns). These powders are carefully hot mixed together with polymeric binders, forming a uniform mixture, which is then cooled and granulated to create the feedstock. This material is then fed into the molding machine.Molding Many advantages of using MIM capabilities are realized in the molding step, where complex contours, holes, small radii, logos and text can be molded into the part. During this step, the feedstock is heated and injected into the molding equipment and the part is created. This molding process results in virtually no waste and employs extensive automation that eliminates the unnecessary handling of parts and provides consistent and cost-effective manufacturing solutions.Catalytic Debinding The advanced debinding technology used by Phillips-Medisize is the most efficient form of debinding. Utilizing polymer chemistry, a catalyst is introduced to remove 90% of the binder from the green part that processes parts with excellent shape and dimensional integrity. After the binder has been removed, the result is termed a "brown" part. The brown part consists of a porous matrix of metal powder and enough binder to allow the part to retain its shape.Sintering In the final step, the brown parts are sintered using a temperature and atmosphere profile chosen specifically for the alloy being processed. At the lower temperatures of the sintering cycle, the residual polymer binder is removed. As the temperature increases, sintering begins allowing particles to fuse and bond to one another, bringing the structure together and reducing porosity.Parts that are well suited for MIM are those that would require extensive machining set-up or assembly operations if they were made by any other metal-forming process. The major advantage of MIM is its ability to produce complex metal geometries without machining. At Phillips-Medisize, a Molex company, designers work with customers during the concept stage to reduce the overall part size and weight so that multiple components can be consolidated into a single design. By designing components for the MIM process, part count and assembly time are reduced, resulting in overall cost savings with the following advantages:Delivers quality componentsProvides tooling expertise with domestic and global optionsAllows for flexibility in its capabilitiesEmploys automation for consistency and cost-effectivenessOffers traditional metal-forming processes-where MIM fitsWorkshop
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