Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications

Product Details
Customization: Available
Pressing Speed: Isostatic Pressing
Suppression Method: Unidirectional Pressurization
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  • Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
  • Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
  • Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
  • Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
  • Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
  • Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
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  • Overview
  • Product Description
  • Product Features
  • Application
  • After Sales Service
  • Company Profile
  • Detailed Photos
Overview

Basic Info.

Model NO.
SX1312
Application
Mechanical Gadgets, Aerospace, Auto Parts, Electric Appliances, Medical Apparatus
Material
Carbide, Tungsten Alloy, Tungsten
Advantage
High Density
Feature
Wear Resistant
Surface Treatment
Plain, Blank, Sintered
Type
Standard, Non-Standard
Transport Package
Carton Box
Specification
Customized
Trademark
OEM available
Origin
China
Production Capacity
10000PCS/Month

Product Description

Product Description

Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications

Heavy tungsten alloy parts refer to components or objects made from tungsten-based alloys that possess high density and weight. Tungsten alloys are metallic materials composed primarily of tungsten, along with other elements such as nickel, copper, iron, or molybdenum. These alloys are renowned for their exceptional density, hardness, and high melting point.

In summary, the use of prefabricated molding processes provides cost-saving benefits by directly creating desired features, such as holes, without the need for additional machining operations. This process offers design flexibility, allowing for the production of complex workpieces, including those with internal holes featuring threaded components. By carefully selecting materials and implementing quality control measures, prefabricated molding processes can significantly enhance production efficiency and reduce costs.

Product Features

Prefabricated Molding Process: The prefabricated molding process involves creating a component or part using pre-designed molds or templates. This process allows for efficient and cost-effective production by directly forming the desired shape or features, such as the three holes mentioned in your statement.

Cost Reduction: By utilizing prefabricated molding, the need for additional machining operations is minimized or eliminated. This helps reduce production costs as it eliminates the need for secondary processes like drilling or milling to create the holes. The direct formation of the desired features saves time, labor, and material costs.

Design Flexibility: The prefabricated molding process offers design flexibility, allowing for the creation of various complex workpieces. In addition to the depicted design with three holes, more intricate workpieces can be produced, including designs with internal holes that feature threaded components. This flexibility enables the production of parts with diverse shapes, sizes, and functionalities.

Enhanced Efficiency: Prefabricated molding processes often result in increased production efficiency. The use of pre-designed molds or templates ensures consistent and accurate replication of the desired features across multiple workpieces. This helps maintain quality standards, reduces errors, and improves overall production efficiency.

Material Considerations: When utilizing prefabricated molding processes, the choice of materials is essential. The selected material should be compatible with the molding technique employed and should possess the necessary properties to meet the requirements of the final workpiece. Common materials used in prefabricated molding include metals, plastics, composites, and ceramics.

Process Adaptability: Prefabricated molding processes can be adapted to different manufacturing methods, such as injection molding, casting, or extrusion. The specific technique used depends on factors such as the material, complexity of the design, production volume, and cost considerations.

Quality Control: Although prefabricated molding processes offer cost advantages, it is crucial to implement quality control measures. Regular inspections, dimensional checks, and material testing should be conducted to ensure the manufactured workpieces meet the required specifications and standards.
Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications

Application

 
Cutting Tools: Tungsten carbide blanks are widely used in the manufacturing of cutting tools such as inserts, drills, end mills, reamers, and saw blades. The high hardness and wear resistance of tungsten carbide make it ideal for cutting and machining operations in industries like automotive, aerospace, metalworking, and woodworking.
Wear Parts: Tungsten carbide blanks are used to produce wear parts that are subjected to high levels of abrasion, such as nozzles, seals, bearings, valve components, and pump parts. Tungsten carbide's exceptional hardness and resistance to wear make it suitable for applications in oil and gas, mining, chemical processing, and other industries where severe wear conditions are present.
Dies and Molds: Tungsten carbide blanks are utilized in the production of dies and molds for metal stamping, forging, and casting processes. Their high hardness and resistance to deformation allow for precise shaping and forming of materials, leading to consistent and accurate parts production.
Tooling Components: Tungsten carbide blanks are employed in tooling components like punches, dies, gauges, and fixtures. These components are used in various industries, including automotive, electronics, and medical device manufacturing, to ensure precise and repeatable production processes.
Wear-resistant Coatings: Tungsten carbide blanks can be used as a base material for wear-resistant coatings. These coatings are applied to surfaces that require enhanced wear resistance, such as cutting tools, machine components, and wear plates. The tungsten carbide coating provides a hard and durable surface that extends the lifespan of the coated parts.
Mining and Construction Tools: Tungsten carbide blanks are utilized in the production of tools for mining, drilling, and construction applications. Examples include drill bits, teeth for excavators and road milling machines, and wear parts for rock drilling tools. The exceptional hardness and toughness of tungsten carbide make it suitable for withstanding the demanding conditions encountered in these industries.
Aerospace and Defense Components: Tungsten carbide blanks are used in the production of components for aerospace and defense applications. These can include turbine blades, armor-piercing projectiles, missile components, and high-precision parts that require excellent strength, wear resistance, and dimensional stability.
 

After Sales Service

Technical Support and Services for Tungsten Carbide Processing

We provide technical support and services to ensure that our customers are able to use Tungsten Carbide Processing to its fullest potential. Our experienced and knowledgeable team can provide customized solutions and advice to help you get the most out of your product.
  • Product installation and setup
  • Troubleshooting and bug fixes
  • Product training and tutorials
  • On-site support and maintenance
  • Software updates and upgrades
  • 24/7 customer service

Company Profile

Zhuzhou Sanxin cemented carbide products mainly include nozzles, bushings & sleeves, sealing rings, molds, inserts, mill rollers, and other customized components.

Cemented carbide is a composite hard alloy material that consists of refractory metal bonded together by a metallic binder through powder metallurgy.
High hardness, wear resistance, strength, and toughness are all its exceptional properties to be widely used in industrial parts and tools for most harsh and aggressive environments.
It is generally accepted that tungsten carbide and tungsten alloy best fit the definitions of cemented carbide, which is also well known as the name metal ceramic.
Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications

Detailed Photos

Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications
Tungsten Heavy Alloy Components for High-Strength and Wear-Resistant Applications

 

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