YG6X Tungsten Carbide YG6X tungsten carbide is a kind of tungsten-cobalt hard alloy, with a chemical composition of 93.5% tungsten carbide (WC) and 6% cobalt (Co). It has a density of 14.6-15.0g/cm³, a hardness of up to 91HRA, and a bending strength of 1400MPa. This material is made of ultra-fine grain alloy through low-pressure sintering, […]
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Analysis of the application of cemented carbide in high-pressure roller mills (HPGR) Cemented carbide is a key material for the core wear-resistant components of high pressure roller mills (HPGRs). Its application level and consumption scale directly reflect the maturity of HPGR technology and its market penetration. This article combines the specific application forms, core performance
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How to melt tungsten carbide ? How to melt tungsten carbide? Tungsten carbide (WC), known as the “teeth” of modern industry, is renowned for its unparalleled hardness and wear resistance. However, transforming it from a solid to a liquid state—i.e., achieving the melting process—is an extremely challenging task in the fields of materials science and
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Tungsten carbide cobalt Tungsten carbide cobalt cemented carbide is a composite material with tungsten carbide as the hard phase and cobalt as the binder phase. It is classified into three categories based on cobalt content: high cobalt (20%-30%), medium cobalt (10%-15%), and low cobalt (3%-8%). Typical grades produced in China include YG2, YG3, YG3X, YG6,
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Does tungsten carbide rust? Does tungsten carbide rust? Pure tungsten carbide itself does not rust, as it is chemically stable, resistant to oxidation or corrosion. Composed of tungsten and carbon, tungsten carbide is insoluble in water, hydrochloric acid, and sulfuric acid. In daily use, it maintains its metallic luster and does not easily discolor. In
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Feasibility Analysis of Tungsten Carbide Forging and Core Manufacturing Processes I. Core Conclusion: Traditional Forging is Infeasible, but Special Processes Offer the Possibility of “Forging-like” Processes Tungsten carbide (WC), as a typical core phase of tungsten-based cemented carbide, cannot be formed using traditional metal forging processes (such as hammer forging, roll forging, and extrusion). However,
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YG6 VS YG8 : A Comparison of Their Applications and Selection I. Definition and Composition Characteristics of YG Series Cemented Carbide Grades Cemented carbide is an alloy material produced through powder metallurgy processes from refractory metal carbides (such as Tungsten Carbide, WC) and binder metals (such as Cobalt, Co). YG6 VS YG8 are cemented carbide grades
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Stellite Saw Tips vs Tungsten Carbide Saw Tips: Performance Comparison, Application Scenarios, and Selection Guide Stellite saw tips (cobalt-based alloy saw tips) and carbide saw tips (tungsten carbide saw tips) are core cutting tool materials in the industrial cutting field. The former uses cobalt as the matrix combined with elements such as chromium and tungsten, while the
Tungsten carbide surface coating treatment process Tungsten carbide is a compound composed of tungsten and carbon with a molecular formula of WC and a molecular weight of 195.85. It possesses excellent properties such as a high melting point, high hardness, high wear resistance, and high corrosion resistance. It is widely used in tools, molds, aerospace,
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The role of cobalt and tungsten in Stellite alloy Stellite alloy, a representative example of cobalt-based high-temperature cemented carbide, holds an irreplaceable position in extreme operating conditions in sectors such as aerospace, energy, and chemical engineering, thanks to its exceptional combined resistance to high temperatures, wear, and impact. Cobalt (Co) and tungsten (W), the core
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