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Home ProductsTungsten Carbide ProcessingPrecision Tungsten Carbide Die Custom Mold K10-K30 Grade
Precision Tungsten Carbide Die Custom Mold K10-K30 Grade
Precision Tungsten Carbide Die Custom Mold K10-K30 Grade Precision Tungsten Carbide Die Custom Mold K10-K30 Grade Precision Tungsten Carbide Die Custom Mold K10-K30 Grade Precision Tungsten Carbide Die Custom Mold K10-K30 Grade

Precision Tungsten Carbide Die Custom Mold K10-K30 Grade

Product Details:
Place of Origin: China
Brand Name: Sanxin
Certification: ISO9001
Model Number: SX-2382
Payment & Shipping Terms:
Minimum Order Quantity: 1
Price: Negotiation
Payment Terms: L/C,T/T
Supply Ability: 1000pcs/month
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  • Detail Information
  • Product Description

Detail Information
Material: 100% Virgin Tungsten Carbide Product Name: Tungsten Carbide Mold
Grade: K10,K20,K30,YG8,YG6X Size: Cusotmized
Hardness: HRA89-HRA94 Surface: Polished
Advantage: High Wear Resistance Density: 14.6~14.8g/cm3
Service: OEM & ODM
Highlight:

Precision Tungsten Carbide Die K10-K30

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Custom Tungsten Carbide Mold K10

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Tungsten Carbide Die with Warranty

Product Description

Precision Tungsten Carbide Die With Smooth Concave Arc

Product Overview

Tungsten carbide (WC-Co) dies are hard alloy molds composed of tungsten carbide as the base material and cobalt as the binder. They are widely used in metal stamping, drawing, and forming applications. Key features include:

  • Ultra-high hardness (≥90 HRA), with wear resistance far exceeding steel molds;
  • High-temperature resistance (operating temperatures up to 600°C+), suitable for high-speed continuous processing;
  • Extended lifespan, 5–10 times longer than conventional molds, reducing downtime;
  • Precision performance, ideal for precision components (e.g., electrical connectors, micro bearings).

Typical Applications

  • Metal drawing dies: For deep drawing of stainless steel, copper alloys, etc.;
  • Stamping dies: Precision blanking of high-hardness materials (e.g., silicon steel, titanium alloys);
  • Cold forging dies: Bolt/nut cold forming;
  • Specialized industries: Aerospace engine components, medical device forming.

Product Advantages

  • Custom designs: Support non-standard cavity geometries;
  • Surface treatments: Optional mirror polishing (Ra≤0.05μm) or coatings (TiN, DLC) to reduce friction;
  • Structural optimization: Pre-stressed ring design prevents cracking under high stress.

 

Machining Challenge: Precision Concave Arc Fabrication

1. Key Difficulties

  • Hard material machining: Tungsten carbide’s hardness (close to diamond) causes rapid tool wear;
  • Arc precision requirements: Tight radius tolerances (±0.005mm) and surface finish (Ra≤0.1μm);
  • Complex geometries: Deep cavities and multi-radius transitions (e.g., fillets) induce tool vibration/chipping.

2. Solutions

  • Specialized processes:
    • Slow wire EDM (roughing): Uses Ø0.03mm molybdenum wire, accuracy ±0.002mm;
    • EDM sinking (finishing): Custom copper/graphite electrodes with multi-axis machining;
    • Diamond grinding (final): Resin-bonded diamond wheels, feed rate ≤1μm/pass.
  • Ancillary technologies:
    • 3D scanning inspection: Real-time CAD model comparison for path correction;
    • Stress-relief heat treatment: Prevents post-machining deformation.

3. Quality Control

  • Dimensional inspection: Full-profile CMM scanning;
  • Surface integrity: White-light interferometry for micro-crack detection;
  • Lifetime testing: Simulated operational fatigue tests.

Tag:

tungsten carbide parts

tungsten carbide production

tungsten carbide tools

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