Optimizing the fabrication process for superior mechanical properties in the FCVISiC matrix/stoichiometric SiC fiber composite system

Igawa N.; Taguchi T.; Snead LL.; Katoh Y.; Jitsukawa S.; Kohyama A. McLaughlin JC.

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Optimizing the fabrication process for superior mechanical properties in the FCVISiC matrix/stoichiometric SiC fiber composite system

机译：优化FCVISiC基体/化学计量SiC纤维复合系统中优异机械性能的制造工艺

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The optimization of the fabrication of SiC composites with stoichiometric SiC fibers (Hi-Nicalon Type S and Tyranno SA) was carried out by the forced thermal-gradient chemical vapor infiltration (FCVI) process. These SiC/SiC composites had a low porosity (11%) with uniform pore distribution and uniform thickness of carbon interphase between advanced SiC fibers and SiC matrix. The tensile strength was slightly increased with the thickness of the carbon interphase in the range of 75-300 nm. The effectiveness of the carbon interphase for the excellent mechanical properties was confirmed by-scanning electron microscopy observation. (C) 2002 Elsevier Science B.V. All rights reserved. [References: 12]

机译：通过强制热梯度化学气相渗透（FCVI）工艺对化学计量SiC纤维（Hi-Nicalon Type S和Tyranno SA）制备SiC复合材料进行了优化。这些SiC / SiC复合材料的孔隙率低（11％），孔隙分布均匀，高级SiC纤维与SiC基体之间的碳界面厚度均匀。拉伸强度随碳中间层厚度在75-300 nm范围内而略有增加。通过扫描电子显微镜观察证实了碳中间相对于优异的机械性能的有效性。（C）2002 Elsevier Science B.V.保留所有权利。 [参考：12]

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2002年第2期|共5页
作者
Igawa N.; Taguchi T.; Snead LL.; Katoh Y.; Jitsukawa S.; Kohyama A. McLaughlin JC.;
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正文语种 eng
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关键词
Sic/sic composites; Resistant;

机译：SiC / SiC复合材料;耐;

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专利

1. Optimizing the fabrication process for superior mechanical properties in the FCVISiC matrix/stoichiometric SiC fiber composite system [J] . Igawa N., Taguchi T., Snead LL., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2002,第Pta2期

机译：优化FCVISiC基体/化学计量SiC纤维复合系统中优异机械性能的制造工艺
2. Processing-temperature dependent micro- and macro-mechanical properties of SiC fiber reinforced SiC matrix composites [J] . Yang L. W., Liu H. T., Cheng H. F. Composites . 2017,第nova期

机译：SiC纤维增强SiC基复合材料的加工温度相关的微观和宏观力学性能
3. COMPARATIVE STUDY OF TENSILE PROPERTIES OF UNI-DIRECTIONAL SINGLE-TOW SIC-MATRIX COMPOSITES REINFORCED WITH VARIOUS NEAR-STOICHIOMETRIC SIC FIBERS [J] . Kazumi Ozawa, Yutai Katoh, Edgar Lara-Curzio, Ceramic Engineering and Science Proceedings . 2010,第2期

机译：多种近乎化学计量的Sic纤维增强单向单束SIC-矩阵复合材料拉伸性能的比较研究
4. Optimizing the fabrication process for excellent mechanical properties in stoichiometric SiC fiber/FCVI SiC matrix composites [C] . T. Taguchi, N. Igawa, S. Jitsukawa, CREST International Symposium on SiC/SiC Composite Materials Research and Development and its Application to Advanced Energy Systems . 2002

机译：优化化学计量SiC纤维/ FCVI SiC基复合材料中优异的机械性能的制造方法
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. The Influence of the Hybridization Process on the Mechanical and Thermal Properties of Polyoxymethylene (POM) Composites with the Use of a Novel Sustainable Reinforcing System Based on Biocarbon and Basalt Fiber (BC/BF) [O] . Jacek Andrzejewski, Bartosz Gapiński, Aminul Islam, 2020

机译：杂交方法对基于生物羰和玄武岩纤维的新型可持续增强系统的聚甲醛（POM）复合材料的机械和热性能的影响（BC / BF）
7. Fabrications and Mechanical Properties of Si-Ti-C-O Fiber/SiC Composites with CVD-SiC Layer between Fiber and Matrix [O] . Ken-ichiroh Igashira, Koji Nishio, Haruki Hino, 1998

机译：纤维和基质CVD-SiC层的Si-Ti-C-O纤维/ SiC复合材料的制造和力学性能
8. Effect of fiber coating on mechanical properties of Nicalon fibers and Nicalon-fiber/SiC matrix composites. [R] . Singh, J. P., Singh, D., Lowden, R. A. 1993

机译：纤维涂层对Nicalon纤维和Nicalon纤维/ siC基复合材料力学性能的影响。

Optimizing the fabrication process for superior mechanical properties in the FCVISiC matrix/stoichiometric SiC fiber composite system

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