Metal Injection Molding (MIM) | Smith Metal Products

Home Capabilities Titanium MIM MIM Materials Metal Injection Molding MIM Part Criteria Designing for MIM Advantages of MIM 3D Binder-Jet Metal Printing In-House Metallurgy Lab CNC Machined Part VS MIM Part Quality Industries Firearms Defense / Firearms Medical Dental / Orthodontics Computers Aerospace Automotive Recreation Appliance About Quality News Events Equipment & Facilities History of Smith Ownership Affiliations MIM Details Introduction What Is MIM? Process Essentials Where MIM Differs from PM Unique Aspects of MIM Comparing MIM with Other Technologies Process Options Overview Powder Options Feedstock Options Tooling for MIM Molding Debinding Sintering Batch Versus Continuous Secondary Operations Vendor Differences Design Principles Recognizing Good Candidate Parts Component Surface Finish Component Size Range Mass Range Manufacturing Considerations Mold Attributes and Limitations Parting Line Sprue, Runner, and Gate Venting Ejection Tool Motions Blemishes from Tooling Dimensional Tolerances Computer Simulation for Defect Avoidance Material Properties Contrast and Comparison of Properties Typical MIM Properties Tensile Properties of MIM Alloys Rupture Strength of Injection Molded Ceramics Testing Standards MIM Costs Typical Project Costs Tooling Cost Tool Life Component Costing CNC Machined Part vs MIM Part Competitive Forces Market Considerations MIM Overview History of MIM Success Industry Structure Statistical Highlights Industry Growth Sales Situation Market Statistics MIM Applications Misconceptions Standards Definitions Summary Download Design Guide PDF Download Resources White Papers Videos Examples Design Guide Site Map RFQ/Contact Contact Us Request for Quote Employment Home Capabilities Titanium MIM MIM Materials Metal Injection Molding MIM Part Criteria Designing for MIM Advantages of MIM 3D Binder-Jet Metal Printing In-House Metallurgy Lab CNC Machined Part VS MIM Part Quality Industries Firearms Defense / Firearms Medical Dental / Orthodontics Computers Aerospace Automotive Recreation Appliance About Quality News Events Equipment & Facilities History of Smith Ownership Affiliations MIM Details Introduction What Is MIM? Process Essentials Where MIM Differs from PM Unique Aspects of MIM Comparing MIM with Other Technologies Process Options Overview Powder Options Feedstock Options Tooling for MIM Molding Debinding Sintering Batch Versus Continuous Secondary Operations Vendor Differences Design Principles Recognizing Good Candidate Parts Component Surface Finish Component Size Range Mass Range Manufacturing Considerations Mold Attributes and Limitations Parting Line Sprue, Runner, and Gate Venting Ejection Tool Motions Blemishes from Tooling Dimensional Tolerances Computer Simulation for Defect Avoidance Material Properties Contrast and Comparison of Properties Typical MIM Properties Tensile Properties of MIM Alloys Rupture Strength of Injection Molded Ceramics Testing Standards MIM Costs Typical Project Costs Tooling Cost Tool Life Component Costing CNC Machined Part vs MIM Part Competitive Forces Market Considerations MIM Overview History of MIM Success Industry Structure Statistical Highlights Industry Growth Sales Situation Market Statistics MIM Applications Misconceptions Standards Definitions Summary Download Design Guide PDF Download Resources White Papers Videos Examples Design Guide Site Map RFQ/Contact Contact Us Request for Quote Employment

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