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Effect of interfacial strength of SiC/SiC composites fabricated by hot-pressing and chemical vapor infiltration method on their mechanical properties

机译：热压和化学气相渗透法制备的SiC / SiC复合材料的界面强度对其力学性能的影响

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The interfacial strength of SiC/SiC composites fabricated by hot-pressing (HP) and chemical vapor infiltration (CVI) method was measured by push-in test, and the effect of interfacial strength on the fracture behavior of SiC/SiC composites was investigated. Maximum strength and fracture energy of the CVI-SiC/SiC composite was higher than those of the HP-Sic/SiC composite due to lower interfacial shear sliding strength and higher fiber strength. The SiC/SiC composite hot-pressed at 1750 deg C had a higher interfacial shear sliding strength and lower fiber strength, resulting in low maximum strength and fracture energy. The SiC/SiC composite hot-pressed at 1650 deg C showed a lower maximum strengfth and higher fracture energy in spite of a lower interfacial shear sliding strength and higher fiber strength. In this case, the delamination between fiber a nd the matrix occurs easily.

机译：通过推入试验测量了热压（HP）和化学气相渗透（CVI）法制备的SiC / SiC复合材料的界面强度，研究了界面强度对SiC / SiC复合材料断裂行为的影响。由于较低的界面剪切滑动强度和较高的纤维强度，CVI-SiC / SiC复合材料的最大强度和断裂能高于HP-Sic / SiC复合材料。在1750℃下热压的SiC / SiC复合材料具有较高的界面剪切滑动强度和较低的纤维强度，从而导致较低的最大强度和断裂能。尽管界面剪切滑动强度和纤维强度较低，但在1650℃下热压的SiC / SiC复合材料却显示出较低的最大强度和较高的断裂能。在这种情况下，纤维与基体之间容易分层。

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《Topical meeting on the technology of fusion energy》|2000年|p.607-611|共5页
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Katsumi Yoshida; Toyohiko Yano; Takayoshi Iseki;
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5. MECHANICAL PROPERTIES OF SiC SHORT-FIBRE-REINFORCED SiC COMPOSITES FABRICATED BY TAPE CASTING AND HOT-PRESSING [J] . Jae-Seol LEE, Toyohlko Yano Advanced Composites Letters . 2005,第3期

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6. Effect of interfacial strength of SiC/SiC composites fabricated by hot-pressing and chemical vapor infiltration method on their mechanical properties [C] . Katsumi Yoshida, Toyohiko Yano, Takayoshi Iseki Topical meeting on the technology of fusion energy . 2000

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机译：Nextel（商标）/ siC复合材料使用强制化学气相渗透制造。

Effect of interfacial strength of SiC/SiC composites fabricated by hot-pressing and chemical vapor infiltration method on their mechanical properties

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