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High-precision MIM solutions for complex metal components, delivering excellent strength, dimensional accuracy, and cost efficiency for industrial applications.

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Technological Strength

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A. Integrated Forming Solution for Complex Structures

Project Overview

We manufacture metal injection molded parts with complex structures for industrial equipment clients. The one-piece integrated forming process effectively simplifies downstream processing procedures.

  • Industry: Industrial Equipment
  • Process: Metal Injection Molding (MIM)
  • Material: Alloy Steel
  • Annual Demand: Over 300,000 pieces

Project Challenges

  • Long production lead time
  • Unconventional complex structures with multiple holes and special profiles
  • Multiple processing procedures required by traditional machining
  • High production costs

Solutions

As an experienced MIM manufacturer, we provide professional solutions as follows:

  • Stable sintering process control
  • Integrated forming structural design
  • Reduction of post-processing procedures
  • Optimized mold design scheme

Project Achievements

✅ Processing procedures reduced by 50%

✅ Production cost reduced by 35%

✅ Lead time shortened by 45%

✅ One-time forming of complex structures realized

Customer Benefits

  • Reduced total manufacturing costs
  • Simplified supply chain management
  • Improved overall production efficiency

B. 17-4PH Industrial Connector

Project Overview

The MIM parts are applied to high-precision industrial connectors. These metal injection molded finished parts require excellent corrosion resistance, high dimensional accuracy and stable batch consistency.

  • Industry: Industrial Connectors
  • Process: Metal Injection Molding (MIM)
  • Material: 17-4PH Stainless Steel
  • Annual Demand: Over 100,000 pieces

Project Challenges

  • Long lead time and high cost of traditional CNC machining
  • Micro complex structural design
  • Strict tolerance requirement (±0.03mm)
  • Standard salt spray resistance performance requirement

Solutions

  • Precise debinding and sintering process control
  • DFM structural optimization tailored for MIM technology
  • Micro-precision mold design

Project Achievements

✅ Cost reduced by over 30% compared with CNC machining

✅ Production yield increased to 98.5%

✅ Stable tolerance controlled within ±0.03mm

✅ Lead time shortened by 40%

Customer Benefits

  • Reduced long-term manufacturing costs
  • Realized stable mass production of customized MIM parts
  • Significantly improved product batch consistency

MIM vs Traditional Manufacturing Processes

ItemMIMPowder MetallurgyInvestment CastingCNC Machining
Relative Density98%86%98%100%
Tensile StrengthHighLowHighHigh
Surface FinishHighMediumMediumHigh
Miniaturization CapacityHighMediumLowMedium
Thin-Wall Forming CapacityHighMediumMediumLow
Geometric ComplexityHighLowMediumHigh
Design Tolerance LatitudeHighMediumMediumMedium
Material Selection RangeWideWideModerateWide

Surface Treatment Classification Table

CategoryRepresentative ProcessesCore Applications
Mechanical Post-treatmentTumbling, Sandblasting, Mechanical Polishing, Vibratory GrindingDeburring, surface roughness adjustment, basic surface finishing
Chemical & Electrochemical TreatmentChemical Polishing, Electropolishing, Passivation, PicklingImprove surface gloss, enhance corrosion resistance, remove oxide scale
Plating & CoatingElectroplating, Electroless Nickel Plating, PVD, DLC, AnodizingWear & corrosion resistance, hard coatings, decorative coloring
Heat TreatmentVacuum Quenching, Age Hardening, Carburizing / Nitriding, CarbonitridingBoost hardness & tensile strength, surface strengthening
Special TreatmentsBlack Oxide Coating, Impregnation & Sealing, Spraying, Laser Marking, Brushed FinishingSealing for air tightness, decorative marking, special surface

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    FAQ

    Here are some of the questions we get asked often. If yours isn’t answered, don’t hesitate to contact us, we’re happy to help!

    • How does MIM differ from conventional injection molding, machining, and die casting?

    • How do you ensure the quality of the parts you manufacture?

    • What is your experience with high-precision parts?

    • What is the maximum complexity achievable with MIM?