Non Magnetic Tungsten Carbide Sheet Solid Carbide Plates Exported To Japan

Product Description

Non-Magnetic Tungsten Carbide Sheet Solid Carbide Plates Exported To Japan

Non-magnetic superhard Tungsten carbide, also known as non-magnetic hard alloy material, belongs to the category of non-magnetic superhard metals. It is suitable for mechanical components used in applications such as magnetic field press forming molds and corrosion-resistant tools, addressing the need for high precision. This material serves as a substitute for non-magnetic steel, solving performance issues. Non-magnetic Tungsten carbide is also an ideal material choice for components used in high-precision mechanical equipment, suitable for peripheral devices such as winding machines.

We supply high precision customized tungsten carbide products, tooling parts based on your designed drawing.

Using various material grades includes standard YG8, YG6, YG6X, K10, K20, K30, etc. 

Technical Requirements: This precision-machined non-magnetic Tungsten carbide component requires a surface finish of Ra0.4 on all faces, and dimensions must meet drawing specifications with a tolerance of ±0.01.

Have made out at least 8 different sizes as follows:

Furthermore, Here Goes Our Tungsten​ Carbide Advantages Introduction:

1, National high-tech enterprise certification
2, Processing High tolerance accuracy ±0.002mm
3, Wear-resistant, heat-resistant and anti-corrosion

Applications:

Tooling processing, Machining, Integrated Circuit (IC) Packaging pressing head that the target products can be adjusted longer or shorter.

Technical Parameters:
1, Grain size(um):1.2
2, Ni (%):9-15, that is Non-Magnetic
3, Density (g/cm3):13.96
4, Hardness (HRA):86.9
5, Flexural strength (N/mm2):2900
6, Porosity:A02B00

Safe Packing:

Production Process:

The production and processing of tungsten carbide, an important hard alloy material used in the manufacturing of cutting tools, drill bits, and abrasive tools, involve several steps. Here is a general outline of the tungsten carbide production and processing workflow:

1. Raw Material Selection: Choose high-purity tungsten powder and carbon powder as raw materials to ensure the produced tungsten carbide exhibits excellent properties.
2. Material Mixing: Blend the selected tungsten and carbon powders in specific proportions to form a uniform mixture.
3. Pressing: 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, utilizing high temperature and pressure to facilitate the complete reaction between carbon and tungsten, resulting in 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. Product Machining: Process the heat-treated blank through cutting, grinding, and other machining techniques to produce the final tungsten carbide products.
8. Surface Treatment: Optionally perform surface treatments such as coating or polishing to improve 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.

Each step in this process requires precise control to ensure the final product possesses the desired physical and chemical properties. While variations may exist among different manufacturers and products, this serves as a general overview of the tungsten carbide production and processing workflow.