针刺炭纤维预制体结构单元对C/C复合材料性能的影响  被引量:1

Effect of needled-carbon fiber preform structure units on properties of C/C composites

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作  者:苏君明[1] 李庭安[1] 李永军[1] 薛宁娟[1] 李睿[1] 姚西明 赵大明[1] 肖志超[1] 

机构地区:[1]西安航天复合材料研究所西安超码科技有限公司,西安710025

出  处:《炭素》2014年第3期3-7,共5页Carbon

摘  要:采用6K炭纤维无纬布/网胎交替叠层及12K炭纤维无纬布/网胎交替叠层,在针刺工艺,致密化、热处理工艺完全相同的情况下,制备了密度为1.8g/cm3的热解炭/树脂炭双元基体的两种C/C复合材料产品,考察了针刺预制体结构单元对C/C复合材料性能的影响.结果表明,两种C/C复合材料的热学(垂直方向导热系数)、电学性能及石墨化度基本相当;而针刺6K炭纤维无纬布/网胎预制体C/C复合材料的拉伸、弯曲、压缩、层间剪切强度分别为127MPa,189MPa,263MPa,24.6MPa;其平行方向导热系数为54.6W/m·K,比常规针刺12K炭纤维无纬布/网胎预制体C/C复合材料相应提高了38%,32.2%,32.8%,38.9%,21%,彰显了细化针刺预制体结构单元对C/C复合材料力学性能的显著影响.Two kinds of C/C composite material products of 1.8 g/cm3 with pyrolytic carbon/resin dual matrix were prepared by 6K carbon fiber non-woven cloth alternating layers and 12K carbon fiber non-woven cloth alternating layers, which were used by the same processes of needle punching, densification and heat treatment. The effect of needled preform structure units on properties of C/C composite was studied. The results show that the thermal property (thermal conductivity coefficient in the vertical direction), electrical resistivity and graphitization degree between these two kinds C/C composites are equal basically. The strength of tensile, bending, compression and layers shear of C/C composite with needled 6K carbon fiber non-woven cloth preform is 127MPa, 189MPa, 263MPa, 24.6MPa and the thermal conductivity coefficient in the parallel direction is 54.6W/m" K, which increases by 38.0%, 32.2%, 32.8%, 38.9%, 21.0%, respectively, compared with the conventional C/C composite with needled 12K carbon fiber non-woven cloth preform. The paper revealed that the great effect on mechanical properties of C/C composite through refining needle preform structure units.

关 键 词:针刺炭纤维预制体 C/C复合材料 力学性能 热学性能 电学性能 

分 类 号:TQ165[化学工程—高温制品工业]

 

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