Fracture characteristic of a (Si-Al-O-N)-SiC composite studied by transmission electron microscopy

Lee BT.

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Fracture characteristic of a (Si-Al-O-N)-SiC composite studied by transmission electron microscopy

机译：透射电子显微镜研究（Si-Al-O-N）-SiC复合材料的断裂特性

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The microstructure and fracture characteristic of a pressureless-sintered (Si-Al-O-N)-6 wt% SiC composite have been investigated by a combination of transmission electron microscopy and microindentation fracture technique. SiC particles of nanometre size were dispersed in Si-Al-O-N grains and, at grain boundaries, were associated with strong strain fields. Si-Al-O-N grain boundaries were formed with an amorphous layer about 2 nm thick. However, interfaces between Si-Al-O-N and SiC embedded in the Si-Al-O-N grains were directly joined without any amorphous layer. The main fracture mode was an intergranular type, but some transgranular fracture by the dispersion of nanometre-sized SiC in the Si-Al-O-N grains are also observed at the crack wake zone. The fracture toughening mechanisms of crack deflection, bridging and microcracking were not observed in the (Si-Al-O-N)-6 wt% SiC nanocomposite system. [References: 19]

机译：结合透射电镜和显微压痕断裂技术研究了无压烧结（Si-Al-O-N）-6 wt％SiC复合材料的组织和断裂特性。纳米尺寸的SiC颗粒分散在Si-Al-O-N晶粒中，并且在晶界处与强应变场相关。用约2nm厚的非晶层形成Si-Al-O-N晶界。然而，Si-Al-O-N和嵌入Si-Al-O-N晶粒中的SiC之间的界面直接连接而没有任何非晶层。主要断裂模式为晶间型，但在裂纹唤醒区也观察到了由于纳米尺寸的SiC分散在Si-Al-O-N晶粒中而引起的一些跨晶断裂。在（Si-Al-O-N）-6 wt％SiC纳米复合材料体系中未观察到裂纹挠曲，桥接和微裂纹的断裂增韧机理。 [参考：19]

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《Journal of Materials Science》 |1998年第2期|共6页
作者
Lee BT.;
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正文语种 eng
中图分类工程材料学;
关键词
Crack-propagation; Si3n4; Microstructure; Toughness; Strength; Behavior; Phase;

机译：裂纹扩展;Si3n4;组织;韧性;强度;行为;相;

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1. Fracture characteristic of a (Si-Al-O-N)-SiC composite studied by transmission electron microscopy [J] . Lee BT. Journal of Materials Science . 1998,第2期

机译：透射电子显微镜研究（Si-Al-O-N）-SiC复合材料的断裂特性
2. Transmission electron microscopy study of SiC/Mg alloy interface in cast SiC particulate-reinforced Mg metal matrix composite [J] . G. J. Shen, Y. Cai, J. Z. Song Journal of Materials Science Letters . 1996,第23期

机译：铸造SiC颗粒增强Mg金属基复合材料中SiC / Mg合金界面的透射电镜研究
3. Treatment Process of Coatings of SiC/SiO2 Nanocables Studied by X-ray Diffraction and Transmission Electron Microscopy [J] . Zhao Jian, Li Zhenjiang, Zhang Meng, Journal of nanoscience and nanotechnology . 2017,第12期

机译：X射线衍射和透射电子显微镜研究的SiC / SiO2纳米纳米涂层的处理过程
4. Interface structure of Si3N4-reinforced Al-based alloy composites studied by transmission electron microscopy [C] . H.-G.Jeong, M.Mabuchi International Conference on Thermomechanical Processingof Steels and Other Materials . 1997

机译：通过透射电子显微镜研究的Si3N4增强Al基合金复合材料的界面结构
5. The Induced Self-Assembly of Supramolecular Complexes Studied via Transmission Electron Microscopy [D] . Green, Dominik Jittapoom 2011

机译：透射电子显微镜研究超分子配合物的诱导自组装
6. Structural evolution and strain induced mixing in Cu–Co composites studied by transmission electron microscopy and atom probe tomography [O] . A. Bachmaier, H. Aboulfadl, M. Pfaff, -1

机译：透射电子显微镜和原子探针层析成像研究Cu-Co复合材料的结构演变和应变诱导混合
7. Micro-Indentation Fracture Behavior of Al₂O₃-24 volZrO₂(Y₂O₃) Composites Studied by Transmission Electron Microscopy [O] . Byong-Taek Lee, Akio Nishiyama, Kenji Hiraga 1993

机译：Al _{2 O _{3 -24 Vol％zro _{2 （Y _{2 O ）复合材料}}}}
8. Characterization of Ultra-high Temperature Ceramics via Transmission Electron Microscopy Relevant ZrB2-based Composites, TaC-based Composites and Oxides Containing SiC Chopped Fibers. [R] . Silverstroni, L., Sciti, D. 2015

机译：通过透射电子显微镜表征超高温陶瓷相关的ZrB2基复合材料，TaC基复合材料和含有siC短切纤维的氧化物。

Fracture characteristic of a (Si-Al-O-N)-SiC composite studied by transmission electron microscopy

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