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前驱体对C/C复合材料的致密化和性能的影响 被引量:8

The Influence of the Precursors on Densification and Properties of C/C Composites
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摘要 研究了分别以甲烷和丙烯为前驱体对制备C/C复合材料的新型ICVI工艺致密化速率及组织结构和力学性能的影响。考察了密度与致密化时间之间的变化规律和密度分布,采用偏光显微镜和扫描电镜观察材料的组织结构和试样的断口形貌,利用三点弯曲实验测定材料的弯曲强度。实验结果表明:在致密化时间100h前,以甲烷为前驱体,C/C复合材料的致密化速率比丙烯为前驱体时低,100h后致密化速率发生逆转;以甲烷为前驱体所得C/C复合材料的密度梯度小,组织结构为粗糙层,弯曲强度为250.87MPa,模量为29.29GPa;而以丙烯为前驱体所得C/C复合材料的密度梯度大,组织结构为光滑层,弯曲强度为102.75MPa,模量为11.42GPa。因此,相对而言甲烷作为制备C/C复合材料的前驱体优于丙烯。 The influence of different precursors on the densification rate, microstructures and flexural strength of C/C composites, 2-D needle punctured felt infiltrated by novel-ICVI, was investigated. The density of the resultant C/C composites was tested by volume method. The density distribution and the correlation between the density and the infiltration lime were studied. The flexural strength was determined by three-point blending tests, and the microstructures of resultant materials and the morphology of fracture surface were observed by polarized light microscopy and scanning electron microscopy respectively. The result show that the densification rate of C/C composites using methane as precursors is lower than that using propylene as precursors before 100h infiltration, while after 100h infiltration the trend is reversed. The density of C/C composites tends to distribute uniformly, the flexural strength is 250.87MPa, the flexural modular is 29.29GPa, and the texture belongs to rough laminar when methane is used as precursor. The density of C/C composites distributes unevenly, the flexural strength is 102.75MPa, the flexural modular is 11.42GPa, and the texture belongs to smooth laminar when propylene is used as precursor. Therefore, the methane is an ideal precursor for novel-ICVI Process.
作者 徐国忠 李贺军 白瑞成 陈拂晓 黄敏
机构地区 西北工业大学超高温复合材料国防重点实验室碳/碳复合材料工程技术研究中心
出处 《材料工程》 EI CAS CSCD 北大核心 2007年第6期50-54,共5页 Journal of Materials Engineering
基金 国家杰出青年基金项目(50225210) 国家自然科学基金项目(50372050)
关键词 C/C复合材料 前驱体 ICVI 致密化 C/C composite precursor ICVI densification
分类号 TB332 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献12

  • 1李贺军.炭 /炭复合材料[J].新型炭材料,2001,16(2):79-80. 被引量:261
  • 2FITZER E.Effect of surface treatment and sizing of c-fibres on the mechanical properties of cfr thermosetting and thermoplastic polymers[J].Carbon,1987,25 (4):455-467.
  • 3熊信柏,李贺军,黄剑锋,马威,郑勇,郭领军.一种制备仿生生物活性钙磷涂层的新方法[J].稀有金属材料与工程,2004,33(3):313-316. 被引量:15
  • 4ZHANG W G,HU Z J,H(U)TTINGER K J.Chemical vapor infiltration of carbon fiber felt:optimization of densification and carbon microstructure[J].Carbon,2002,40 (14):2529-2545.
  • 5白瑞成,李贺军,徐向阳,熊信柏,李爱军.一种制备C/C复合材料的高效等温ICVI工艺[J].航空学报,2005,26(2):254-256. 被引量:13
  • 6SAVAGE G.Carbon-carbon Composites[M].London:Chapman and Hall,1992.253-255.
  • 7ZHANG W G,H(U)TTINGER K J.Densification of a 2D carbon fiber perform by isothermal,isobaric CVI:Kinetics and carbon microstructure[J].Carbon,2003,41(12):2325-2337.
  • 8DELHAES P.Chemical vapor deposition and infiltration processes of carbon materials[J].Carbon,2002,40(5),641-657.
  • 9BENZINGER W,H(U)TTINGER K J.Chemical vapor infiltration of pyrocarbon:Ⅰ Some kinetics considerations[J].Carbon,1996,34(12):1465-1471.
  • 10BECKER A,H(U)TTINGER K J.Chemistry and kinetics of chemical vapor deposition of pyrocarbon-Ⅳ pyrocarbon deposition from methane in the low temperature regime[J].Carbon,1998,36(3):21-224.

二级参考文献14

  • 1Golecki I.Rapid vapor-phase densification of refractory composites[J]. Materials Science and Engineering,1997, 20: 37-124.
  • 2Delhaes P. Chemical vapor deposition and infiltration processes of carbon materials[J]. Carbon, 2002, 40: 641-657.
  • 3Becker A, Hüttinger K J. Chemistry and kinetics of chemical vapor deposition of pyrocarbon II. Pyrocarbon deposition from ethylene, acetylene and 1,3-butadiene in the low temperature regime[J]. Carbon, 1998, 36: 177-199.
  • 4Benzinger W, Hüttinger K J. Chemistry and kinetics of chemical vapor infiltration-V, infiltration of carbon fiber felt[J]. Carbon, 1999, 37: 941-946.
  • 5Zhang W G, Klaus J, Hüttinger K J. Chemical vapor infiltration of carbon-revised. Part I: model simulations[J]. Carbon, 2001, 39: 1013-1022.
  • 6Hu Z J, Klaus J, Hüttinger K J. Chemical vapor infiltration of carbon-revised. Part II: experimental results[J]. Carbon, 2001, 39: 1023-1032.
  • 7Zhang W G, Hu Z J, Hüttinger K J. Chemical vapor infiltration of carbon fiber felt: optimization of densification and carbon microstructure[J]. Carbon, 2002, 40:2529-2545.
  • 8Zhang W G, Hüttinger K J. Densification of a 2D carbon fiber preform by isothermal, isobaric CVI: kinetics and carbon microstructure[J]. Carbon ,2003, 41: 2325-2337.
  • 9Lavenac J, Langlais F, Féron O, et al. Microstructure of the pyrocarbon matrix in carbon/carbon composites[J].Composites Science and Technology, 2001, 61: 339-345.
  • 10Feron O, Langlais F, Naslain R, et al. On kinetic and microstructural transitions in the CVD of pyrocarbon from propane[J]. Carbon, 1999, 37: 1343-1353.

共引文献278

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引证文献8

二级引证文献16

材料工程
2007年 第6期

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