C/C编织复合材料性能的细观力学研究  

Study on micromechanical properties of carbon-carbon braided composite

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作  者:陈迪[1] 周晓[1] 周苗荣[1] 黄炜锋[1] 马李[1] 

机构地区:[1]台州学院物理与电子工程学院,浙江台州318000

出  处:《炭素技术》2013年第3期1-4,共4页Carbon Techniques

基  金:浙江省自然科学基金(Y4100185)

摘  要:作为一种多相体材料,炭基复合材料的力学性能和损伤破坏规律与其组元材料的弹性常数、体积含量以及细观结构密切相关。本文独创了组元材料试样加工与拉伸试验方法,获得了石墨基体和炭纤维的拉伸模量、强度和断裂应变率,在此基础上利用细观力学中Eshelby等效夹杂理论和Mori-Tanaka方法,建立了预报材料弹性常数的细观力学模型,并将理论预报结果与试验结果进行了比较,分析了误差产生的原因。结果表明:理论预报值与试验值之间的误差在10%以内,说明计算模型合理,计算结果可信。As a kind of heterogeneous material, the mechanical properties and failure rule of carbon-based composites have close relationship with the elastic constant and volume content of component as well as micro-configuration. Based on the respective characteristics of components carbon fiber, graphite and carbon cloth, a tensile property test method was established, and then failure strength, elastic modulus and tearing strain under normal temperature were obtained in this work. Based on the test results, Eshelby equivalent inclusion theory and Mori-Tanaka method were used to establish the corresponding models to predict the elastic constant of carbon based composites under normal temperature. Results show that the theoretical prediction is in good agreement with the test data, proving that the method is valid.

关 键 词:炭基复合材料 组元 拉伸试验 细观力学 

分 类 号:TB332[一般工业技术—材料科学与工程]

 

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