Non-magnetic superhard alloy
Conventional carbide materials have magnetic properties, albeit weak, making them difficult to use in press processing of magnetic materials and related equipment. However, we have completely resolved this issue by eliminating magnetism. Additionally, this carbide has a different composition from regular carbide, and the carbide formulated with this composition exhibits excellent corrosion resistance against salt and chemicals, as well as outstanding oxidation resistance at both low and high temperatures. At Silverloy, we offer a wide range of non-magnetic carbide materials that are not available from other companies. For more details, please refer to the material specifications.
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basic information
It is non-magnetic and has high mechanical strength. We also offer a wide range of non-magnetic hard alloys that are not available from other companies (such as Q2, Q3, Q5, Q7, QS25, QS35, etc.). Please contact us for more details.
Price information
*It varies depending on the shape and quantity. Please feel free to contact us.*
Delivery Time
※It varies depending on the shape and quantity. Please feel free to contact us.
Applications/Examples of results
Molds and surrounding jigs for magnetic shaping Jigs and molds for various applications requiring non-magnetic properties, wear-resistant parts Molds, jigs, and wear-resistant parts requiring high corrosion resistance Parts for pumps Mechanical seals Magnetic tape cutting cutters and slitters Jigs for handling electronic components that are sensitive to magnetism Widely used for nozzles and more.
Company information
At Silverloy, we have devoted all our power to the research and development of carbide and the enhancement of quality under the belief that "if we manufacture good products quickly, users will seek them." Our lineup of carbide ranges from general carbide to those using coarse, fine, ultra-fine, and super ultra-fine tungsten carbide particles, as well as high-difficulty non-magnetic carbide. Additionally, we are continuously developing groundbreaking manufacturing technologies for carbide, such as "the development of new carbide," "HIP (Hot Isostatic Pressing)," "the development of new materials using ultra-high temperature sintering furnaces," "improving the stability and uniformity of carbide quality," "producing uniform products and reducing costs through high-speed automatic pressing," and "drilling φ0.08mm holes in carbide using special manufacturing methods."