Prediction of Long-term Creep Behavior of High Performance Composite Material for Spacecraft

机译：宇宙飞船高性能复合材料长期蠕变行为的预测

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Even though carbon/epoxy composite materials have been widely used in aircraft for many years, different requirements are often required for composite materials in spacecraft application due to the space environment. Some of the considerations include modulus and thermal properties for spacecraft while as strength is important for aircraft. For heat pipe panels, space radiator, antennas or optical benches, thermal stability is required for the life of the satellite. In this study, long term creep behavior of high performance composite material is investigated with time-temperature shift factor. The fiber is pitch-based carbon which shows high thermal conductivity and high modulus. It was possible to predict creep compliance after 5 years from dynamic mechanical analysis data. This information is useful to understand the property change during the intended service life of the spacecraft.

机译：尽管碳/环氧复合材料已广泛用于飞机多年，但由于空间环境，宇宙飞船应用中的复合材料通常需要不同的要求。一些考虑因素包括用于航天器的模量和热性能，而随着电力对于飞机很重要。对于热管板，空间散热器，天线或光学长凳，卫星使用寿命需要热稳定性。在该研究中，采用时间温度偏移因子研究了高性能复合材料的长期蠕变行为。纤维是沥青基碳，其显示出高导热率和高模量。从动态机械分析数据5年后，可以预测蠕变顺应性。这些信息可用于了解航天器预期使用寿命期间的财产变化。

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《International Conference on Advanced Materials Research》|2016年|x156p|共5页
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Kyung Ju Min; Ji-Ung Choi; Ho-Sung Lee;
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中图分类 TB3-532;
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Spacecraft; Thermal conductivity; High modulus; Composite material; Creep compliance; Time temperature superposition.;

机译：航天器;导热率;高模量;复合材料;蠕变顺应性;时间温度叠加。;

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1. Prediction of Long-Term service Performance of Polymeric Materials From Short-Term Tests: Creep and Prediction of the Stress Shift Factor of a Longitudinal Polymer Liquid Crystal [J] . Ali E.Akinay, Witold Brostow, Robert Maksimov Polymer engineering and science . 2001,第6期

机译：从短期测试预测聚合物材料的长期服务性能：纵向聚合物液晶的蠕变和应力转移因子的预测
2. Experimental creep tests and prediction of long-term creep behavior of grouting material [J] . Siavash Nadimi, Koroush Shahriar Arabian journal of geosciences . 2014,第8期

机译：实验性蠕变试验和灌浆材料的长期蠕变行为预测
3. Long-Term Creep Behavior Prediction of Sol-Gel Derived SiO 2 - and TiO 2 -Wood Composites Using the Stepped Isostress Method [J] . Ke-Chang Hung, Tung-Lin Wu, Jyh-Horng Wu Polymers . 2019,第7期

机译：逐步等应力法预测溶胶-凝胶衍生的SiO 2-和TiO 2-木材复合材料的长期蠕变行为
4. Prediction of Long-term Creep Behavior of High Performance Composite Material for Spacecraft [C] . Kyung Ju Min, Ji-Ung Choi, Ho-Sung Lee International Conference on Advanced Materials Research . 2016

机译：宇宙飞船高性能复合材料长期蠕变行为的预测
5. Characterization of long-term creep behavior of polymer composites by the use of dynamic test methods and micromechanical models. [D] . Wen, Yuan-Feng. 1994

机译：使用动态测试方法和微力学模型表征聚合物复合材料的长期蠕变行为。
6. Long-Term Creep Behavior Prediction of Sol-Gel Derived SiO2- and TiO2-Wood Composites Using the Stepped Isostress Method [O] . Ke-Chang Hung, Tung-Lin Wu, Jyh-Horng Wu 2019

机译：逐步等应力法预测溶胶-凝胶衍生的SiO2-和TiO2-木材复合材料的长期蠕变行为
7. Prediction of Long-Term Service Performance of Polymeric Materials From Short-Term Tests: Creep and Prediction of the Stress Shift Factor of a Longitudinal Polymer Liquid Crystal [O] . Ali E. Akinayl, Witold Brosow, Robert Maksimov 2015

机译：从短期测试预测高分子材料的长期使用性能：蠕变和纵向聚合物液晶应力转移因子的预测
8. Prediction and Verification of Creep Behavior in Metallic Materials and Components, for the Space Shuttle Thermal Protection System. Volume 1, Phase 1: Cyclic Materials Creep Predictions [R] . Davis, J. W., Cramer, B. A. 1974

机译：航天飞机热保护系统金属材料和部件蠕变行为的预测与验证。第1卷，第1阶段：循环材料蠕变预测

Prediction of Long-term Creep Behavior of High Performance Composite Material for Spacecraft

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