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热固性树脂中孔隙形成条件的定量测试方法与影响因素 被引量:11

Quantitative measuring method and influencing factors of void formation conditions in thermosetting resins
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摘要 根据热固性树脂基复合材料的热压成型特点和扩散形成孔隙机制,建立了一种离线的孔隙形成条件定量测试方法,可实现孔隙率-树脂压力变化关系的定量测定。采用该方法研究了两类环氧树脂体系固化过程中凝胶温度、相对湿度、树脂压力等条件对孔隙形态和分布的影响,并与修正的Kardos气泡模型的理论计算结果进行了对比分析。结果表明:所建立的测试方法可以模拟热压工艺条件离线测定水汽形成孔隙情况,结果重复性好;不同条件下树脂压力与孔隙率的关系均呈指数衰减的变化规律;凝胶温度和相对湿度对孔隙率影响显著;树脂种类明显影响孔隙率大小和形态分布。研究结果为热压工艺复合材料孔隙缺陷的控制提供了重要的测试方法和实验依据。 An off-line measuring method of void formation conditions was designed based on the characteristics of the hot press process for resin matrix composites and the mechanism of void formation controlled by diffusion. This method can quantitatively determine the relation between resin pressure and porosity. By means of this method, the effects of gel temperature, relative moisture and resin pressure on void formation conditions in two epoxy systems were studied, including void content, morphology and distribution. The modified Kardos void model was compared with the experiments. The results indicate that the method can be used to simulate the void formation process caused by hygroscopic moisture in the hot press process, and it has good repeatability. The evolution of resin pressure vs porosity follows the exponential decay function. Moreover, the gel temperature and relative moisture have great effects on porosity, while the resin type influences porosity, morphology and distribution of voids remarkably. The study provides an important measuring method and experimental evidence for void defect control in composites during the hot press process.
出处 《复合材料学报》 EI CAS CSCD 北大核心 2008年第2期52-56,共5页 Acta Materiae Compositae Sinica
基金 北京航空航天大学博士研究生创新性研究基金资助
关键词 复合材料 热压工艺 孔隙 测试方法 composites hot press process voids measuring method
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参考文献8

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二级参考文献11

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