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A Perspective on Emerging and Future Sintering Technologies of Ceramic Materials
Advanced Engineering Materials ( IF 3.4 ) Pub Date : 2023-03-17 , DOI: 10.1002/adem.202201870 Olivier Guillon 1, 2, 3 , Wolfgang Rheinheimer 1, 2 , Martin Bram 1, 4
Advanced Engineering Materials ( IF 3.4 ) Pub Date : 2023-03-17 , DOI: 10.1002/adem.202201870 Olivier Guillon 1, 2, 3 , Wolfgang Rheinheimer 1, 2 , Martin Bram 1, 4
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Novel sintering methods have emerged in the recent past years, which have raised great interest in the scientific community. Relying on electric field effects, high heating rates, the use of mechanical pressure, or hydrothermal conditions, they offer fundamental advantages compared to conventional sintering routes like minimizing the energy consumption and enhancing the process efficiency. This perspective aims at explaining these effects in a general way and presenting the status quo of using them for the processing of high-performing ceramic materials. In detail, this work focuses on flash sintering, ultrafast high-temperature sintering, spark plasma sintering, cold sintering, and photonic sintering methods based on different light sources. The specificities, potentials, and limitations of each method are compared, especially in the light of a possible industrialization.
中文翻译:
陶瓷材料新兴和未来烧结技术的展望
近年来出现了新型烧结方法,引起了科学界的极大兴趣。依靠电场效应、高加热速率、机械压力或水热条件的使用,与传统的烧结路线相比,它们具有基本的优势,例如最大限度地减少能源消耗和提高工艺效率。该观点旨在以一般方式解释这些效应,并展示利用它们加工高性能陶瓷材料的现状。具体来说,这项工作重点研究了基于不同光源的闪速烧结、超快高温烧结、放电等离子体烧结、冷烧结和光子烧结方法。比较每种方法的特异性、潜力和局限性,
更新日期:2023-03-17
中文翻译:
陶瓷材料新兴和未来烧结技术的展望
近年来出现了新型烧结方法,引起了科学界的极大兴趣。依靠电场效应、高加热速率、机械压力或水热条件的使用,与传统的烧结路线相比,它们具有基本的优势,例如最大限度地减少能源消耗和提高工艺效率。该观点旨在以一般方式解释这些效应,并展示利用它们加工高性能陶瓷材料的现状。具体来说,这项工作重点研究了基于不同光源的闪速烧结、超快高温烧结、放电等离子体烧结、冷烧结和光子烧结方法。比较每种方法的特异性、潜力和局限性,
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