According to reports, the five high-tech industrialization bases will involve emerging industries such as new energy vehicles, electronics and information, new materials, optoelectronics, and carbon fiber. They will also have distinctive features, strong innovation capabilities, and a sound industrial chain. Scale and other advantages.
Therefore, in the next five years, Jilin Province will strengthen the development of new energy technologies, support the key technologies for the industrialization of hybrid vehicles, research and development of key technologies for energy-saving and low-carbon emission of automobiles, accelerate the development of technologies in the field of extremely strong new materials, and support automotive-specific chemicals. Research on materials and processing technology, high-performance structural materials, advanced composite materials, and advanced functional materials.
A blended powder of tungsten carbide and Metal Alloy Powder can be used for laser cladding, a process used to deposit a layer of material onto a substrate using a laser beam. This blended powder is typically used as a feedstock material for laser cladding applications where high wear resistance and hardness are required.
Tungsten carbide is a hard and wear-resistant material that is commonly used in cutting tools, mining equipment, and other high-wear applications. It has excellent thermal conductivity and high melting point, making it suitable for laser cladding processes.
Metal alloy powders, on the other hand, are often added to the Tungsten Carbide Powder to enhance certain properties or tailor the characteristics of the final cladding layer. These metal alloys can include nickel, cobalt, chromium, or other elements, depending on the specific requirements of the application.
The blended powder is typically prepared by mixing the tungsten carbide and metal alloy powders in the desired ratio. This mixture is then fed into a laser cladding system, where it is melted using a high-power laser beam. The molten powder is rapidly solidified onto the substrate, forming a dense and wear-resistant cladding layer.
The resulting cladding layer can have excellent hardness, wear resistance, and thermal conductivity, making it suitable for various applications such as tooling, wear parts, and surface protection. The specific properties of the cladding layer can be adjusted by varying the composition and ratio of the tungsten carbide and metal alloy powders in the blend.
Overall, the blended powder of tungsten carbide and metal alloy powder offers a versatile and customizable solution for laser cladding applications, providing enhanced wear resistance, hardness, and other desired properties to the final cladding layer.
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