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SINTERED METAL PARTS

High Quality Industrial Components Solutions

FASTENING & FIXING PARTS
Metal Spare Parts
Sintered Metal Parts introduction

Sintered Metal Parts Overview

Sintered metal parts are precision-engineered components manufactured by compacting and sintering metal powders. This process enables the production of complex, high-strength, and cost-effective parts with excellent mechanical properties, consistent quality, and material versatility for demanding industrial applications.

  • High precision and repeatability for mass production
  • Wide material selection: iron, stainless steel, bronze, copper, and more
  • Complex geometries and internal features without extensive machining
  • Cost-efficient for large-volume manufacturing
  • Enhanced strength, wear resistance, and thermal stability
Typical Applications:
  • Automotive: gears, bushings, pulleys, locking mechanisms
  • Power tools and machinery: cams, clutches, levers, housings
  • Aerospace and defense: lightweight and specialty alloy parts
  • Medical equipment: high-tolerance custom metal components
  • Home appliances and electronics: silent gears, rotors, enclosures
Customization: We offer custom shapes, material blends, density/porosity control, and secondary operations (machining, heat treatment, coating) to meet your exact requirements.

Sintered metal parts are components created by compressing and sintering metal powders into solid shapes, offering high strength, precision, and cost-efficiency.

With proper design and material selection, sintered parts can achieve mechanical properties comparable to forged or machined parts, especially after secondary treatments.

Common materials include iron, steel, stainless steel, bronze, copper, and custom alloy blends based on application needs.

Yes, especially when manufactured using high-strength alloys and combined with heat treatment or impregnation, sintered parts perform reliably under stress and heat.

Absolutely. We offer full customization in terms of shape, size, material, density, and secondary processes to suit your exact performance and design requirements.