Room and high-temperature mechanical and thermal properties of SIC fiber-reinforced SIC composite sintered under pressure

Yoshida K.; Yano T.

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Room and high-temperature mechanical and thermal properties of SIC fiber-reinforced SIC composite sintered under pressure

机译：加压烧结的SIC纤维增强SIC复合材料的室温和高温力学和热性能

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Polycarbosilane-impregnated 2D woven SiC fiber-reinforced SiC composites with 52 vol% of fibers were fabricated by hot-pressing at 1650-1750 degreesC under a pressure of 40 MPa using sintering additives of an Al2O3-Y2O3-CaO system. The composites fractured in a non-brittle manner, Maximum strength of the composites hot-pressed at 1700 degreesC or 1750 degreesC did not decrease up to a test temperature of 1200 degreesC. The fracture energy increased with increasing test temperature and peaked at 1200 degreesC. Thermal conductivity increased with increasing bulk density, and the values were 7-14 W/mK at room temperature. (C) 2000 Elsevier Science B.V. All rights reserved. [References: 25]

机译：使用Al2O3-Y2O3-CaO体系的烧结助剂，在1650-1750℃，40 MPa的压力下进行热压，制备了纤维含量为52％（体积）的聚碳硅烷浸渍2D编织SiC纤维增强SiC复合材料。复合材料以非脆性方式断裂，在1700℃或1750℃下热压的复合材料的最大强度直到测试温度1200℃都没有降低。断裂能随测试温度的升高而增加，并在1200℃达到峰值。导热系数随堆密度的增加而增加，在室温下为7-14 W / mK。（C）2000 Elsevier Science B.V.保留所有权利。 [参考：25]

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2000年第1期|共5页
作者
Yoshida K.; Yano T.;
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正文语种 eng
中图分类原子能技术;
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Silicon-carbide; Neutron-irradiation; Microstructure; Ceramics;

机译：碳化硅;中子辐照;显微组织;陶瓷;

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1. Room and high-temperature mechanical and thermal properties of SIC fiber-reinforced SIC composite sintered under pressure [J] . Yoshida K., Yano T. Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2000,第Pta1期

机译：加压烧结的SIC纤维增强SIC复合材料的室温和高温力学和热性能
2. Effect of MoSi 2 addition and particle size of SiC on pressureless sintering behavior and mechanical properties of ZrB 2–SiC–MoSi 2 composites [J] . Mehri Mashhadi, Mahboobeh Shambuli, Saeed Safi Journal of Materials Research and Technology . 2016,第3期

机译：MoSi 2 的添加和SiC的粒径对ZrB 2 –SiC–MoSi 2 复合材料
3. Pressureless sintering behavior and mechanical properties of ZrB 2–SiC composites: effect of SiC content and particle size [J] . Mehri Mashhadi, Hamid Khaksari, Saeed Safi Journal of Materials Research and Technology . 2015,第4期

机译：ZrB 2 -SiC复合材料的无压烧结行为和力学性能：SiC含量和粒径的影响
4. MECHANICAL PROPERTIES OF SiC FIBER-REINFORCED CELSIAN COMPOSITES AFTER HIGH-TEMPERATURE EXPOSURES IN AIR [C] . Narottam P. Bansal Annual international conference on composites engineering . 2001

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5. SiC/SiC Fiber-reinforced Composites: The Effect of Processing, Mechanical Properties, and Phase Transformation [D] . Santoro, Uriel. 2018

机译：SiC / SiC纤维增强复合材料：加工，机械性能和相变的影响
6. Sintering Behavior of Spark Plasma Sintered SiC with Si-SiC Composite Nanoparticles Prepared by Thermal DC Plasma Process [O] . Yeon-Tae Yu, Gautam Kumar Naik, Young-Bin Lim, 2017

机译：直流等离子体技术制备的火花等离子体烧结SiC与Si-SiC复合纳米粒子的烧结行为
7. Effect of MoSi2 addition and particle size of SiC on pressureless sintering behavior and mechanical properties of ZrB2–SiC–MoSi2 composites [O] . Mehri Mashhadi, Mahboobeh Shambuli, Saeed Safi 2016

机译：添加mosi2和siC粒径对ZrB2-siC-mosi2复合材料无压烧结行为和力学性能的影响

Room and high-temperature mechanical and thermal properties of SIC fiber-reinforced SIC composite sintered under pressure

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