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Zhuzhou Sanxin Cemented Carbide Manufacturing Co., Ltd

Hard Alloy Mold Precision 0.002 Non-magnetic Tungsten Carbide Module

Product Details:
Place of Origin: China
Brand Name: Sanxin
Certification: ISO
Model Number: SX1280
Payment & Shipping Terms:
Minimum Order Quantity: 1 piece
Price: Negotiable
Packaging Details: Safety Packing
Delivery Time: 15~45 Days
Payment Terms: L/C, T/T, Western Union
Supply Ability: 10-50000pcs/month
  • Detail Information
  • Product Description

Detail Information

Name: Tungsten Carbide Module High Precision: 0.002mm
Material: Non-magnetic Tungsten Carbide Type: Hard Alloy Mold
Performance: Industrial Grade Grades: Various Grades
High Light:

cold heading dies

,

progressive punching die

Product Description

Hard Alloy Mold Precision 0.002 Non-magnetic Tungsten Carbide Module

Tungsten carbide is a composite material made by combining tungsten carbide particles with a binder metal, typically cobalt or nickel.

It is renowned for its exceptional hardness, wear resistance, and strength.

Tungsten carbide mold, carbide modules are commonly used in various industrial applications due to their unique properties.

Product Name Hard Alloy Mold, Tungsten Carbide Module
Surface Finish Smooth, Shiny
Size Customized
Material Tungsten Carbide
Wear Resistance Excellent
Impact Resistance Excellent
Density 14.5-15.0g/cm3
Lifespan Long
Flexibility Excellent
Heat Resistance ≤900℃
Tungsten Carbide Forming HVOF Tungsten Carbide
Tungsten Carbide Processing Yes

Key Benefits

1.Hardness and Wear Resistance: Tungsten carbide blocks exhibit high hardness, often ranking between 8.5 and 9 on the Mohs scale. This exceptional hardness makes them highly resistant to abrasion, wear, and deformation, even under harsh operating conditions.
2.Strength and Durability: Tungsten carbide blocks possess excellent strength and toughness. They can withstand high pressures, impacts, and mechanical stresses without losing their shape or structural integrity.
3.Heat Resistance: Tungsten carbide blocks have a high melting point and excellent thermal stability. They can withstand elevated temperatures without softening or deforming, making them suitable for applications involving high heat or thermal cycling.
4.Industrial Applications: Tungsten carbide blocks find extensive use in various industries. They are commonly used as cutting and drilling tools, wear-resistant components, dies and molds, mining and construction equipment, and parts for the oil and gas industry. Tungsten carbide blocks are also employed in high-precision applications, such as bearings, seals, and precision instruments.

Product Features

Prefabricated Molding Process: The prefabricated molding process is an advanced manufacturing technique where components or parts are formed using pre-designed molds or templates. This method ensures efficient and cost-effective production by directly shaping the desired features, such as the three holes you mentioned.

Cost Reduction: Prefabricated molding significantly reduces production costs by minimizing or even eliminating the need for secondary machining operations. This process removes the necessity for additional drilling or milling to create holes, thus saving time, labor, and material costs.

Design Flexibility: This innovative process allows for remarkable design flexibility, enabling the creation of complex workpieces. Beyond simple designs with three holes, it supports the production of intricate parts, including those with internal threaded components. This versatility accommodates various shapes, sizes, and functionalities.

Enhanced Efficiency: Prefabricated molding ensures heightened production efficiency. Utilizing pre-designed molds guarantees consistent and precise replication of desired features across multiple workpieces. This consistency maintains quality standards, minimizes errors, and boosts overall production efficiency.

Material Considerations: Choosing the right materials is crucial for prefabricated molding processes. The material must be compatible with the molding technique and possess properties that meet the final workpiece's requirements. Common materials include metals, plastics, composites, and ceramics.

Process Adaptability: Prefabricated molding is adaptable to various manufacturing methods, such as injection molding, casting, or extrusion. The choice of technique depends on factors like the material used, design complexity, production volume, and cost.

Quality Control: Despite the cost advantages, quality control is paramount in prefabricated molding processes. Regular inspections, dimensional checks, and material testing are essential to ensure that the manufactured workpieces meet all required specifications and standards.

Hard Alloy Mold Precision 0.002 Non-magnetic Tungsten Carbide Module 0

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