S. Mahale, D. Rajamani, A. Revathi, M. Prakash, S. Srihari, R. Rao
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引用次数: 7
摘要
研究了高温固化玻璃-环氧树脂(Epoxy Novolac - EPN)复合体系在323 K和343 K蒸馏水浸泡条件下的湿热扩散和降解行为。在最大含水率(Mm)不变的情况下,343 K浸泡的样品比323 K浸泡的样品具有更高的扩散系数(Dc)和更短的饱和时间(tm),复合体系具有良好的菲克相关关系。在降解效果方面,随着含水率的增加,复合材料的玻璃化转变温度(Tg)下降,在完全饱和时最大下降30℃,而饱和试样的力学性能(ILSS和IPS)分别下降了26%和33%。此外,在70℃/85%RH测试条件下获得的这些力学性能与理论方程(Chamis et al.)预测的力学性能具有良好的相关性。预测先进复合材料结构部件水热机械响应的综合理论,Lewis研究中心,克利夫兰,俄亥俄州,NASA技术备忘录73812)。
Hot-Wet Property Characterisation of a High-Temperature Cured Glass–Epoxy Composite in Immersion Environment
The hygrothermal diffusion and degradation behavior of a high-temperature cured glass–epoxy (Epoxy Novolac – EPN) composite system was studied under two environmental conditions (i.e. 323 K and 343 K immersion in distilled water). Samples immersed at 343 K showed higher diffusivity (Dc) value and lower saturation time (tm) than those of 323 K immersion while the maximum moisture content (Mm) remained the same, good Fickian correlation were observed for the composite system. As regards the degradative effects, the glass transition temperature (Tg) of the composite decreased with increased moisture content showing a maximum drop of 30 C at full saturation, while the mechanical properties (ILSS and IPS) of saturated specimens degraded upto 26 and 33% respectively. Further these mechanical properties obtained at 70 C/85%RH test condition showed good correlations with those predicted by a theoretical equation (Chamis et al. An Intergrated Theory for Predicting the Hydrothermo Mechanical Response of Advanced Composite Structural Components, Lewis Research Center, Cleveland, Ohio, NASA Technical Memorandum 73812).
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