Carbide Mold Bushing Textile Machinery Wear Parts Hard Metal Sleeve

Carbide Mold Bushing Textile Machinery Wear Parts Hard Metal Sleeve

Carbide sleeves for textile machinery
Brightness: Rt 0.8 = Ra 0.1
Outer hole: φ12
Inner hole:  φ 4
Tolerance: f6
Wear-resistant, heat-resistant, and anti-corrosion
We provide carbide bushing non-standard custom production processing, and precision requirements can meet ± 0.002.
Carbide mold bushing textile machinery wear parts production, customized tungsten steel bushing wear parts processing.

The tungsten carbide bushing is a high-performance bearing component used in the textile industry, crafted from premium tungsten carbide material. This type of bushing plays a crucial role in textile machinery, offering excellent wear resistance, high strength, and temperature stability, providing robust support for the reliable operation of textile equipment.

Key Features:

As a crucial component in textile machinery, the tungsten carbide bushing, with its high-performance characteristics, offers reliable bearing support to enhance the reliability and stability of textile equipment. Its superior hardness, wear resistance, and high-temperature stability make it an ideal choice in the textile industry, contributing to improved equipment performance.

It's for fabric production weaving machines, circular loom, multiaxial weaving...
The physical parameters of commonly used carbide bushing materials are as follows:
     1, Grain Size(um):  1.0~2.0.
     2, Co(Co%):  8.0-10
     3, Density(g/cm3):  14.41-14.95
     4, Hardness(HRA):  89.5-93
     5, Flexural strength( Mpa):  3200-4500
     6, Young's modulus(Gpa):  570-620
     7, Compressive Strength( Mpa):  4700
The grade applied to this product is YG11, what grade is yours?

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.

Machining capability of solid tungsten carbide parts:
Maximum Size: Φ85 * 1200mm
Minimum Size: Φ0.045 * 14mm

The processing technology for tungsten carbide products varies depending on the type and intended use of the product. Here is a general processing workflow for tungsten carbide products:

1. Raw Material Preparation: Select high-purity tungsten powder and carbon powder as raw materials.
2. Material Mixing: Blend tungsten and carbon powders in specific proportions to ensure a uniform mixture.
3. Pressing and Shaping: Place the mixture into molds and subject it to high pressure to achieve the desired shape.
4. Initial Sintering: Place the pressed blank in a high-temperature furnace for initial sintering, forming a preliminary structure.
5. Powder Metallurgy Sintering: Subject the preliminarily sintered blank to powder metallurgy sintering, allowing carbon to react fully with tungsten to produce tungsten carbide.
6. Heat Treatment: Conduct heat treatment on the sintered product to adjust its crystal structure and properties, enhancing hardness and wear resistance.
7. Mechanical Processing: Employ machining processes such as cutting, milling, and grinding on the heat-treated blank to achieve the final product shape.
8. Surface Treatment: Optionally perform surface treatments, such as coating or polishing, to enhance surface properties as needed.
9. Quality Inspection: Conduct quality checks on the finished tungsten carbide products to ensure they meet specified technical standards and customer requirements.
10. Packaging and Delivery: After passing quality inspection, package the products and deliver them to customers.

It's important to note that different types of tungsten carbide products may have variations in this basic process, and specific processing techniques can also be influenced by product design requirements and intended applications.