{"id":22027,"date":"2023-07-08T16:18:13","date_gmt":"2023-07-08T08:18:13","guid":{"rendered":"https:\/\/www.meetyoucarbide.com\/?p=22027"},"modified":"2023-07-08T16:22:51","modified_gmt":"2023-07-08T08:22:51","slug":"3-methods-to-produce-spherical-carbide-powder","status":"publish","type":"post","link":"https:\/\/www.meetyoucarbide.com\/tr\/3-methods-to-produce-spherical-carbide-powder\/","title":{"rendered":"3 y\u00f6ntemle haz\u0131rlanan k\u00fcresel d\u00f6k\u00fcm tungsten karb\u00fcr tozunun performans \u00e7al\u0131\u015fmas\u0131"},"content":{"rendered":"
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Spherical Cast Tungsten Carbide Powder is a novel type of highly wear-resistant ceramic particle material. Compared to traditional tungsten carbide, spherical cast tungsten carbide possesses two significant advantages. Firstly, it has a regular spherical appearance with good powder flowability and wetting properties. When used as an additive particle, it exhibits excellent compatibility with the surrounding structure, reducing stress concentration. Secondly, the internal structure of the tungsten carbide particles is dense, exhibiting good toughness, fine grain size, high hardness, and excellent wear resistance as a coating. It is less prone to fracture under load.<\/p>\n
Due to its outstanding performance, spherical cast tungsten carbide powder is gradually replacing traditional tungsten carbide powder in surface protection applications for mining machinery, petroleum machinery, construction industry, and foundries. It significantly enhances the wear resistance, corrosion resistance, and oxidation resistance of components, thereby extending their service life.<\/p>\n
The chemical composition, microscopic morphology, microstructure, microhardness, and other powder properties of spherical cast tungsten carbide powder prepared by different methods will be investigated below.<\/p>\n
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1.<\/b><\/strong>Chemical composition of sample carbide powder<\/h1>\n
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The table above shows the chemical composition of spherical cast tungsten carbide powder samples prepared by different methods. It can be observed that the main components of spherical cast tungsten carbide powder are tungsten (W) and carbon (C), with trace amounts of iron (Fe), vanadium (V), chromium (Cr), and niobium (Nb). The ideal composition of spherical cast tungsten carbide should consist of eutectic WC and W2C phases, with a eutectic temperature of 2525 \u2103 and a carbon content of 3.840% (mass fraction) at the eutectic point. From the data in the table, it can be seen that the spherical cast tungsten carbide powder prepared by the plasma rotating electrode atomization method has the smallest deviation from the theoretical carbon content and the lowest free carbon content. On the other hand, the powder obtained from the induction melting and atomization method shows the largest deviation from the theoretical carbon content, with a difference of 0.170% (mass fraction). This is likely due to the use of graphite tube heating in the induction melting process, which can increase the carbon content. Therefore, compared to other methods, the plasma rotating electrode atomization method can more accurately control the carbon content of spherical cast tungsten carbide powder, preventing over-eutectic and sub-eutectic reactions caused by carburization and decarburization, and achieving a near-perfect eutectic microstructure. This is crucial for improving the microstructure and properties of spherical cast tungsten carbide.<\/p>\n