การผลิตสารเติมแต่ง MIM


mim additive manufacturing refers to an industrial process to produce small, complex metal parts at high volumes. A composite metal powder feedstock is molded into a green-state shape using injection molding equipment, debound, and then sintered to achieve full density.

MIM leverages the geometric flexibility of polymer injection molding and green-forming with the performance capability of metal alloys. With additive manufacturing processes expanding options, this guide covers MIM compositions, properties, applications, specifications, process flows, suppliers, tradeoffs, and FAQs.

mim additive manufacturing

Composition of MIM Alloys

Many compositions are available as MIM feedstocks:

สแตนเลส316L, 17-4PH, 420Corrosion resistant, high hardness, for medical uses
เหล็กเครื่องมือH13, P20High strength, heat resistance, for molded tooling
อัลลอยอลูมิเนียม2024, 6061, 7075Lightweight, high strength-to-weight ratio
โลหะผสมไทเทเนียมคุณ-ชัล-เฮวีLightweight with corrosion resistance and high strength for aerospace uses
โลหะผสมนิกเกิลInconel 625 and 718Heat/corrosion resistance suited for turbo machinery
ทังสเตนWHA, WCExtremely high density perfect for balancing applications

Both standard and custom formulations are available depending on needs.

คุณสมบัติของ mim additive manufacturing

In addition to composition tailored to performance requirements, key resulting properties include:

ความหนาแน่นRanges from near pure metal density to greater than 95% theoretical density
แรงดึง250 MPa to over 1300 MPa depending on reinforcement strategies
ความแข็งUp to 70 HRC achieved based on alloy choice
ความต้านทานการกัดกร่อนVarying resistance levels possible based on compositions selected
ความขรุขระAs molded <6 μm Ra up to <0.2 μm Ra after plating/polishing
Complex geometryMolding allows intricate shapes unachievable with other processes
ความละเอียดของคุณสมบัติSmall slots, holes, threads down to ~100 μm » achievable
Wall thicknessAs low as ~0.25 mm walls molded based on geometry
TolerancesTighter tolerances than metal AM, typical ±0.3% of dimensions

These capabilities make MIM suitable for end-use precision components.

Applications of MIM Additive Manufacturing

MIM’s geometric flexibility and tailored composition suit various industries:

เกี่ยวกับยานยนต์Gears, rocker arms, turbocharger components
การบินและอวกาศTurbine blades, impellers, nozzle guide vanes
อาวุธปืนTriggers, safeties, slides, ejectors, muzzles
Medical/DentalScalpel handles, forceps, skull plates, crowns
น้ำมันและก๊าซValve parts including bodies, stems, actuators
Micro ElectronicsShields, connectors, pins, spacers, actuators

MIM also helps create tooling inserts capable of mass production molding/forming operations.

MIM Feedstock Specifications

Feedstock properties require careful control for tolerance and feature capability:

พารามิเตอร์Typical Specificationวิธีทดสอบ
Powder particle size3 – 20 μmการเลี้ยวเบนเลเซอร์
การโหลดผง>55 vol%การวิเคราะห์ความร้อน
Powder apparent density2.5 – 4 g/cm3ฮอลล์โฟลว์มิเตอร์
แตะความหนาแน่น>4 g/cm3Tapping volumeter
Viscosity curveShear rate dependentCapillary rheometry
Pellet size distribution2 – 4 g sensitive to shapeการกรอง

These specifications promote mold flow while ensuring green-body and sintered strength.

Overview of the MIM Manufacturing Process

  1. Develop composite feedstock with desired powder + binder system
  2. Pelletize feedstock for precision volumetric shot control
  3. Injection mold parts with tight tolerances and surface finish
  4. Chemically debind and remove polymer content
  5. Sinter pellets at >92% theoretical density
  6. Machine features as needed if geometry allows
  7. Apply supplementary plating, heat treating, coating, etc. if necessary
  8. Quality assurance testing and validation for production

This continues to be optimized for reliability at high volumes.

MIM Equipment and Feedstock Suppliers

BASFWide range of MIM alloysComplete quality feedstocks
Sandvik Osprey316L, 17-4PH, moreAtomization expertise transferred to MIM
MPPTool steels, stainless steels, customLeading MIM equipment too
CN InnovationsCustom alloysSpecialists in novel compositions
Parmatech CorpTi alloys, tool steels, Fe alloys, exoticsEquipment and feedstocks

Suppliers offer complementary equipment like molding machines and furnaces to enable turnkey production.

Tradeoffs When Considering MIM AM


  • Highly complex geometries and assemblies consolidated
  • Excellent mechanical properties from uniform fine grains
  • Great surface finish resolution as molded
  • Proven mass production scalability once qualified
  • Low wasted raw material relative to metal printing
  • Leverages existing injection molding know-how


  • High up front costs for feedstock formulation and tooling
  • Intensive qualification for new parts and applications
  • Limited size range to under several pounds
  • Restricted to alloys available as powders
  • Generally lower ultimate strength than forgings
  • Per-part cost higher than other processes until >10k volume

MIM hits the sweet spot for small complex metal components with its established track record.

mim additive manufacturing


How small of features can MIM practically mold?

Typical lower range limits fall around 100-150 microns for hole diameter and mold wall thicknesses around 0.3 mm (~12 thou), thinner in certain geometries.

What determines the size range limits for MIM parts?

General difficulty handling thin-walled shapes over approximately 5” flow length without sagging or distortion. Maximum thickness typically under 0.5” and weights up to 5 pound range.

Does MIM allow functionally graded (FGM) composites?

Yes, advanced molding processes now support tailored porosities or spatially graded multi-powder feedstocks within a single molded component during manufacturing.

How many alloys are commercially available as MIM feedstocks?

Over 60+ base formulations exist – 300 series stainless steels comprise over 50% of the total market, followed by tool steels, titanium alloys, and nickel superalloys seeing growth.

What finishing processes typically follow MIM?

Common secondary operations include barrel finishing/vibratory deburring, surface grinding, shot peening, laser marking, passivation, plating, heat treating, joining, and inspection.

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