综合硬质材料涉及这些金属和钛的碳化物、氮化物和硼化物的生产、用途和性能，以及陶瓷工具、超硬氮化硼和金刚石及相关化合物。文章包括粉末生产（包括其前驱体材料）、磨粉、造粒、冷热压制、烧结、热等静压、热压、注塑成型技术，以及难熔金属、硬质金属和硬质合金的涂层技术。坚硬的材料。还涵盖了表征、测试、质量保证和应用。综合硬质材料提供有关处于技术前沿的材料的有意义的见解。它有助于对这些材料的持续研究和开发，因此对于面临未来技术挑战的学术界和行业专业人士来说，它是重要的信息资源。
　　主要特点
　　硬质材料处于技术前沿，持续研发此类材料对于应对未来的技术挑战至关重要。这项工作的用户可以提高他们对基本原理的了解，并更好地了解过程/结构/属性关系。
　　随着纳米技术、涂层技术和功能梯度材料与硬质合金、金属陶瓷、先进陶瓷、超硬材料和复合材料的认知科学的融合，很明显，这类材料的全部潜力还远未耗尽。这项工作将这些重要的研究领域结合在一起，并将通过其广泛的交叉引用和专题介绍为用户提供有用的见解。
　　为了将学术与硬质材料的工业用途联系起来，反之亦然，这项工作涉及这些金属和钛的碳化物、氮化物和硼化物的生产、用途和性能，以及陶瓷工具、超硬氮化硼和金刚石和相关化合物。

The comprehensive hard materials cover the production, applications and properties of these metals and titanium carbides, nitrides and borides, as well as ceramic tools, super-hard boron nitride and diamond and related compounds. The article includes powder production (including its precursor materials), grinding, granulation, cold and hot pressing, sintering, hot isostatic pressing, hot pressing, injection molding technologies, as well as coating technologies for refractory metals, hard metals and hard alloys. Hard materials. It also covers characterization, testing, quality assurance and applications. Comprehensive hard materials provide meaningful insights into materials at the technological forefront. It helps with the continuous research and development of these materials, thus being an important information resource for the academic community and industry professionals facing future technological challenges.
Key features
Hard materials are at the technological forefront, and continuous research on such materials is crucial for addressing future technological challenges. The users of this work can enhance their understanding of the basic principles and better understand the relationship between process/structure/property.
With the integration of nanotechnology, coating technology and functional gradient materials with the cognitive science of hard alloys, metal ceramics, advanced ceramics, super-hard materials and composite materials, it is clear that the full potential of these materials has not yet been exhausted. This work combines these important research areas and provides users with useful insights through its extensive cross-referencing and thematic introductions.
To link academia with the industrial applications of hard materials and vice versa, this work covers the production, applications and properties of these metals and titanium carbides, nitrides and borides, as well as ceramic tools, super-hard boron nitride and diamond and related compounds.