1) creamware
['kri:mweə]
米色的陶瓷
2) nano-ceramics
纳米陶瓷
1.
In order to validate both oxidation phenomena of SiC nano powder during sintering and variety in properties of nano-ceramics after oxidation,Al2O3/SiC nanocomposite was fabricated through pressureless sintering in argon atmosphere and in air respectively.
为验证在空气环境中,烧结Al2O3/SiC纳米复合陶瓷过程是否出现纳米SiC粉料的氧化现象,以及氧化后纳米陶瓷性能的变化规律,分别采用了常压氩气保护烧结和常压空气环境中烧结两种工艺,制备了Al2O3/SiC纳米复合陶瓷。
2.
An effective method to prevent the aggregation and growth of nano-ceramics .
对共沉淀—凝胶法制备的氧化锆纳米陶瓷粉体,采用有机物液相悬浮法、弧光放电法、气相沉积法及粉体制备过程中直接包裹等方法对纳米氧化锆粉体进行表面包碳修饰,成功制备了包裹层厚度均匀、颗粒分散性好的碳包纳米氧化锆粉体,通过形貌观察、粒度测定、粉体烧结性能测试,探讨包裹层形成机理,为防止纳米陶瓷粉体的团聚长大探索有效途径。
3.
The research status of the multi-phase composite ceramic tool materials such as nano-ceramics, functionally gradient ceramics and zirconia ceramics are summarized primarily.
文章重点综述了纳米陶瓷、梯度复相陶瓷、氧化锆陶瓷等多相复合陶瓷刀具材料的研究现状 ,全面分析了陶瓷刀具材料的颗粒弥散增韧补强、纤维 (或晶须 )增韧、相变增韧及多种机理协同增韧等机制的研究动
3) nanoceramics
纳米陶瓷
1.
Research on the strengthening and toughening of nanoceramics;
纳米陶瓷及其增韧补强研究
2.
The capabilities of nanoceramics are introduced.
本文介绍了纳米陶瓷的性能,详细分析了纳米陶瓷的微结构和纳米粉体的制备技术、团聚、成型方法以及纳米陶瓷的烧结技术等因素对纳米陶瓷性能的影响。
3.
We analyzed the property of the nanoceramics in forming and sintering process in this paper.
介绍了纳米陶瓷素坯成型与烧成的技术要求 ,就目前应用于纳米陶瓷的素坯成型及烧成的各种方法与原理作了综述 ,比较了各自的特点 ,并就其现状与发展作了进一步的分
4) nanocrystalline ceramics
纳米陶瓷
1.
Properties and applications of nanocrystalline ceramics;
纳米陶瓷材料的性能及其应用
2.
In this paper, the main preparation methods, unique properties of nanocrystalline ceramics such as superplastics and high strength have been described.
综述了纳米陶瓷的主要制备方法、独特的超塑性、高强度性能,并对其在军事领域的应用前景进行了讨论。
5) nano-ceramic
纳米陶瓷
1.
Hot-press sintering and superplastic forming of nano-ceramics*;
纳米陶瓷的热压烧结及超塑成形(英文)
2.
I-V Characteristics of ZnO nano-ceramic;
ZnO纳米陶瓷的I-V特性
3.
Forming and Sintering of Nano-ceramic;
纳米陶瓷的成型及烧结技术研究进展
6) Nanoceramic
纳米陶瓷
1.
The preparation, structure and properties of ferroelectric nanometer sized powders, nanocomposites, and nanoceramics were introduced.
对近年来有关铁电纳米粉体、纳米复合材料、以及纳米陶瓷的制备,结构和性能进行了介绍。
补充资料:电解质陶瓷(见快离子导体陶瓷)
电解质陶瓷(见快离子导体陶瓷)
electrolyte ceramics
电解质陶瓷electrolyte陶瓷。Cera』n1CS即快离子导体
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条