Determination of the compressive yield strength for nano-grained YAG transparent ceramic by XRD analysis

Wang H. M.; Jiang J. S.; Huang Z. Y.; Chen Y.; Liu K.; Lu Z. W.; Qi J. Q.; Li F.; He D. W.; Lu T. C.; Wang Q. Y.

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Determination of the compressive yield strength for nano-grained YAG transparent ceramic by XRD analysis

机译：X射线衍射法测定纳米YAG透明陶瓷的压缩屈服强度。

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Nano-grained ceramics have their unique mechanical characteristics that are not commonly found in their coarse-grained counterparts. In this study, nano-grained YAG transparent ceramics (NG-YAG) were prepared by low-temperature high-pressure technique (LTHP). The peak profile analysis of the X-ray diffraction was employed to investigate the compressive yield strength of NG-YAG. During the temperature at 450 degrees C, the residual micro-strain (RMS) increased with increasing loading pressure. However when the loading pressure was exceeded to 4.0 GPa the RMS exhibited a severe negative slop. The temperature effects on the compressive yield strength were also studied. It shows that the compressive yield strength of NG-YAG is 4.0 GPa and 5.0 GPa respectively at 450 degrees C and 350 degrees C. More importantly according to this investigation, a feasible technique to study the nano-grained ceramics is provided. (C) 2016 Elsevier B.V. All rights reserved.

机译：纳米晶粒陶瓷具有其独特的机械特性，而在粗晶粒陶瓷中则不常见。本研究采用低温高压技术（LTHP）制备了纳米晶YAG透明陶瓷（NG-YAG）。通过X射线衍射的峰形分析来研究NG-YAG的压缩屈服强度。在450摄氏度的温度下，残余微应变（RMS）随着加载压力的增加而增加。但是，当加载压力超过4.0 GPa时，RMS表现出严重的负斜率。还研究了温度对压缩屈服强度的影响。结果表明，NG-YAG在450℃和350℃的抗压屈服强度分别为4.0 GPa和5.0 GPa。更重要的是，根据这项研究，提供了一种研究纳米晶粒陶瓷的可行技术。（C）2016 Elsevier B.V.保留所有权利。

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《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2016年第null期|共5页
作者
Wang H. M.; Jiang J. S.; Huang Z. Y.; Chen Y.; Liu K.; Lu Z. W.; Qi J. Q.; Li F.; He D. W.; Lu T. C.; Wang Q. Y.;
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正文语种 eng
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YAG; Nano-grained; Yield strength; High pressure;

机译：YAG;纳米粒;屈服强度;高压;

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1. Determination of the compressive yield strength for nano-grained YAG transparent ceramic by XRD analysis [J] . Wang H. M., Jiang J. S., Huang Z. Y., Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2016,第Null期

机译：X射线衍射法测定纳米YAG透明陶瓷的压缩屈服强度。
2. Grain boundary sliding mechanism in plastic deformation of nano-grained YAG transparent ceramics: Generalized self-consistent model and nanoindentation experimental validation [J] . Wang Haomin, Li Ruijie, Zhou Min, Journal of the European Ceramic Society . 2017,第7期

机译：纳米粒晶透明陶瓷塑性变形晶界滑动机制：广义自洽模型和纳米凸缘实验验证
3. Unique mechanical properties of nano-grained YAG transparent ceramics compared with coarse-grained partners [J] . Wang H. M., Huang Z. Y., Jiang J. S., Materials & design . 2016,第sepa5期

机译：纳米粒YAG透明陶瓷与粗粒伙伴相比的独特机械性能
4. Yield strength determination of TiN film by in-situ XRD stress analysis method [C] . M. Qin, V. Ji, J. H. Xu, European Conference on Residual Stresses . 2002

机译：原位XRD应力分析方法屈服强度测定锡膜
5. The effects of sintering aids on defects, densification, and single crystal conversion of transparent neodymium:YAG ceramics. [D] . Stevenson, Adam J. 2010

机译：烧结助剂对透明钕：YAG陶瓷的缺陷，致密化和单晶转化的影响。
6. Yield Strength of Transparent MgAl2O4 Nano-Ceramic at High Pressure and Temperature [O] . Jie Zhang, Tiecheng Lu, Xianghui Chang, 2010

机译：高温高压下透明MgAl2O4纳米陶瓷的屈服强度
7. Tape casting of a YAG/Yb:YAG/YAG transparent ceramic for a broadband tunable laser [O] . Chao Wang, Wenxue Li, Xianghui Yang, 2014

机译：YAG / YB的胶带铸造：宽带可调激光器的YAG / YAG透明陶瓷

Determination of the compressive yield strength for nano-grained YAG transparent ceramic by XRD analysis

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