{"id":21830,"date":"2023-04-17T11:25:21","date_gmt":"2023-04-17T03:25:21","guid":{"rendered":"https:\/\/www.meetyoucarbide.com\/?p=21830"},"modified":"2023-04-17T11:25:21","modified_gmt":"2023-04-17T03:25:21","slug":"what-is-nanoceramic-bonded-carbide","status":"publish","type":"post","link":"https:\/\/www.meetyoucarbide.com\/pl\/what-is-nanoceramic-bonded-carbide\/","title":{"rendered":"Co to jest w\u0119glik spiekany nanoceramicznie?"},"content":{"rendered":"
Nanoceramic bonded phase WC-based carbide refers to a type of carbide product that does not contain or contains a small amount of metal bonding agent (<0.5% by mass fraction). It has unparalleled excellent wear resistance, corrosion resistance, excellent polishing, and oxidation resistance compared to traditional carbide.<\/p>\n
nanoceramic bonded phase WC-based carbide is a combination of ceramic hardness and carbide toughness, and products have been launched abroad. With its excellent wear and corrosion resistance, it can be used to make sandblasting nozzles, electronic packaging materials, heavy-duty sliding seal wear-resistant parts, etc.. with its excellent cutting performance, it can be used as tool and drill materials, especially for processing titanium\/titanium alloys, which greatly improves work efficiency. and with its oxidation resistance and excellent polishing, it can be used as mold and decorative materials.<\/p>\n
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1Phase structure and carbon content of nanoceramic bonded phase carbide carbide are very sensitive to carbon content. For traditional carbide containing bonding phases, there is a certain range of carbon content to maintain a normal phase structure. If this range is exceeded, brittle n-phase or free carbon will appear. In contrast, the suitable carbon content of nanoceramic bonded phase WC-based carbide is not fluctuating like WC-Co alloy but is a fixed value.<\/p>\n
2Composition design and properties of nanoceramic bonded carbide<\/p>\n
Nanoceramic bonded carbide, which combine mechanical and wear resistance properties perfectly, are one of the most widely used ceramic-based materials in engineering. However, in most ceramic-based materials, the existence of metal bonding phases not only makes these composite materials have excellent flexural toughness but also affects certain properties, which limits their use. In addition, the low melting point of metal Co also greatly limits the application of WC-Co cutting tools in high-speed machining, which is prone to serious adhesive wear and oxidation wear. Moreover, the poor corrosion resistance, high cost, and toxicity of Co also limit the mechanical industry application of WC-Co carbide. Therefore, partially or completely replacing the Co bonding phase can expand the application of carbide. In recent years, ceramic bonding phases have attracted widespread attention in the scientific community as a new type of Co substitute.<\/p>\n
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The Research Institute of Shandong University in China selected nanoscale Al2O3, ZrO2, and MgO as the binder phase for WC hardmetal alloys. The microstructure and mechanical properties of the hardmetal alloys were compared, and the toughening mechanism of the nanoceramic oxides was explored. The related paper, titled “Nano-ceramic replacing cobalt in cemented carbide as binder phase: Is it feasible?”, was published in the Journal of Alloys and Compounds.<\/p>\n
Paper link:<\/p>\n