The Development of a Combustion Chamber Liner Utilizing a Long-Fiber Reinforced Composite Material Made Using the Poly-Silazane lmpregnation Method and the Chemical Vapor Deposition Method

K. Matsumoto; N. Fujioka; T. Hayakawa

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The Development of a Combustion Chamber Liner Utilizing a Long-Fiber Reinforced Composite Material Made Using the Poly-Silazane lmpregnation Method and the Chemical Vapor Deposition Method

机译：利用聚硅氮烷浸渍法和化学气相沉积法制备的长纤维增强复合材料燃烧室衬板的开发

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A combustion liner made of a fiber-reinforced ceramic matrix composite(CMC) having oxidation-resistance and the required drawing dimensions, has been developed by using both methods of poly-silazane impregnation and SiC coating,which is expected to be effective in the improvement of oxidation resistance,through Chemical Vapor Deposition (cvn). A basic manufacturing technology has been established to make static components with complex shapes using non-woven fabrics made of short cut continuous fiber. The prototype extension liner has proven to be available in practical combustion environment atmosphere in engines through satisfactory inspection results conducted after the engine combustion environment test for a cumulative test duration of 31 hours.

机译：通过使用聚硅氮烷浸渍和SiC涂层两种方法开发了一种具有抗氧化性和所需拉伸尺寸的纤维增强陶瓷基复合材料（CMC）制成的燃烧衬套，有望在改进方面有效通过化学气相沉积（cvn）的抗氧化性。已经建立了一种基本的制造技术，可以使用由短切连续纤维制成的无纺布来制造形状复杂的静态部件。通过在发动机燃烧环境测试后进行31个小时的累积测试持续时间得出令人满意的检查结果，原型延伸衬套已被证明可在发动机的实际燃烧环境中使用。

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《Key Engineering Materials》 |1999年第1999期|49-52|共4页
作者
K. Matsumoto; N. Fujioka; T. Hayakawa;
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The Development of a Combustion Chamber Liner Utilizing a Long-Fiber Reinforced Composite Material Made Using the Poly-Silazane lmpregnation Method and the Chemical Vapor Deposition Method

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