16

2023

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01

Main characteristics of cemented carbide

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Comprehensive hard materials involve the production, use and performance of carbides, nitrides and borides of these metals and titanium, as well as ceramic tools, superhard boron nitride, diamonds and related compounds. The article includes powder production (including its precursor materials), milling, granulation, cold and hot pressing, sintering, hot isostatic pressing, hot pressing, injection molding technology, and coating technology of refractory metals, hard metals and hard alloys. Hard material. It also covers characterization, testing, quality assurance and application. Comprehensive hard materials provide meaningful insights on materials at the forefront of technology. It contributes to the continuous research and development of these materials. Therefore, it is an important information resource for academics and industry professionals facing future technical challenges.
main features 
Hard materials are at the forefront of technology, and continuous research and development of such materials is crucial to meet future technical challenges. Users of this work can improve their understanding of the basic principles and better understand the process/structure/attribute relationship.
With the integration of nanotechnology, coating technology and functional gradient materials with the cognitive science of cemented carbide, cermets, advanced ceramics, superhard materials and composites, it is clear that the full potential of these materials is far from exhausted. This work combines these important research areas and will provide users with useful insights through its extensive cross-references and presentations.
In order to link academic and industrial use of hard materials, and vice versa, this work involves the production, use and performance of carbides, nitrides and borides of these metals and titanium, as well as ceramic tools, superhard boron nitride and diamond and related compounds.

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