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填料种类对炭石墨材料性能和微观结构的影响(英文) 被引量:8

Influence of filler type on the performance and microstructure of a carbon/graphite material
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摘要 分别利用炭黑、石油焦、针状焦和天然石墨粉为填料,煤沥青为黏结剂,经模压成型(150MPa,10min)、炭化(1300℃,1h)和石墨化(2300℃)制备炭/石墨材料。考察了填料类型对最终炭/石墨材料物理性能和微观结构的影响。研究结果表明:利用炭黑为填料所制材料具有较高的机械强度,但其导热和导电性能相对较差;经石墨化后(2300℃),其抗弯和抗压强度分别达到88.0和173.2MPa。而以天然石墨粉为填料所制材料具有较好的导热和导电性能,在室温下其导热率达到278W/m·K;另外,其抗弯和抗压强度分别达到51.1和90.2MPa。微观结构分析表明,以天然石墨粉为填料所制得的材料具有最大的微晶尺寸和高度的取向性。 Carbon/graphite material was prepared by subjecting a mixture of coaltar pitch binder and a relevant filler to uniaxial compression at 150MPa for 10min, followed by calcination at 1300℃ for 1 h, and graphitization at 2300℃ in an induction furnace. Four fillers, carbon black (CB), petroleumcoke powder, needlecoke powder, and natural graphite powder (NG), were used. The effect of filler type on the performance and microstructure of the material was investigated. Results reveal that the CBbased material has excellent flexural and compressive strength, with the highest values of 88.0 and 173.2MPa, respectively, but poor thermal and electrical conductivity. The thermal conductivity of the NGbased material has the highest value of 278W/m·K, but the flexural and compressive strength are limited to 51.1 and 90.2MPa, respectively. Microstructural analysis showed that the NGbased material has the largest crystallite size, as well as the most perfect orientation of graphite layers.
作者 刘占军 郭全贵 刘朗 史景利 翟更太
机构地区 中国科学院山西煤炭化学研究所炭材料重点实验室 中国科学院研究生院
出处 《新型炭材料》 SCIE EI CAS CSCD 北大核心 2010年第4期313-316,共4页 New Carbon Materials
关键词 炭/石墨 机械强度 开孔率 微观结构 Carbon/graphite Mechanical strength Porosity Microstructure
分类号 TB332 [一般工业技术—材料科学与工程]
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参考文献15

  • 1Yoichi K,Tetsusei F,Takayuki K,et al.Puffing behavior during the graphitization of coal-tar-based needle coke impregnated with iron(II)sulfate and boric acid[J].Carbon,2000,38(5):759-765.
  • 2Endo M,Nishimura Y,Takahashi T,et al.Lithium storage behavior for various kinds of carbon anodes in Li ion secondary battery[J].Chem Solids,1996,57(6-8):725-728.
  • 3Fujimoto H,Mabuchi A,Tokumitsu K,et al.Irreversible capacity of lithium secondary battery using meso-carbon micro beads as anode material[J].J Powder Sources,1995,54(2):440-443.
  • 4Liu Z J,Guo Q G,Liu L,et al.Improvements in performance and microstructure of doped graphites as plasma facing materials by a new process[J].Fusion Eng Des,2007,82(1):55-59.
  • 5刘占军,郭全贵,曹雅秀,刘长安,宋进仁,刘朗.利用“二次焦”制备高强炭/石墨材料[J].新型炭材料,2006,21(4):302-306. 被引量:18
  • 6Qiu H P,Song Y Z,Liu L,et al.Thermal conductivity and microstructure of Ti-doped graphite[J].Carbon,2003,41(5):973-978.
  • 7Sánchez-González J,Macías-García A,Alexandre-Franco M F,et al.Electrical conductivity of carbon blacks under compression[J].Carbon,2005,43(4):741-747.
  • 8Fan Z G,Liu L,Li J G,et al.The preparation of fine-grained doped graphite and its properties[J].J Nucl Mater,2002,305(1):77-82.
  • 9Toshiya K,Shigeru M.Effect of grain boundary segregation on thermal conductivity of hot-pressed silicon carbide[J].Acta Mater,1997,45(5):2001-2012.
  • 10Hoffman W R,Hettinger K J.Demonstration of spontaneous liquid-phase sintering of mesophase powders[J].Carbon,1993,31(2):259-62.

二级参考文献19

  • 1卢秀荣,王成扬,范启明.MCMB超细粉末特性及其成型工艺对烧结体性能的影响[J].新型炭材料,2004,19(2):109-113. 被引量:15
  • 2郭领军,李贺军,薛晖,李克智,孙国岭.焦炭颗粒的平均细度对沥青基炭复合材料性能的影响[J].新型炭材料,2005,20(3):235-239. 被引量:3
  • 3孙利荣.浅谈高密高强石墨的制备[J].炭素技术,1996,15(6):21-24. 被引量:8
  • 4Fitzer E.The future of carbon-carbon composites[J].Carbon,1987,25(2):163-190.
  • 5Blazewicz S,Blocki J,Chlopek J,et al.Thin C/C composite shells for high energy physics:manufacture and properties[ J ].Carbon,1996,34(11):1393-1399.
  • 6Wang Y G,Korai Y,Mochida I.Carbon disc of high density and strength prepared from synthetic pitch-derived mesocarbon microbeads[J].Carbon,1999,37(7):1049-1057.
  • 7Gao Y,Song H,Chen X.Preparation of C/C composite using mesocarbon microbeads as matrix[J].J Mater Sci,2000,35:5437-5442.
  • 8Bhatia G,Aggarwal R K,Punjabi N,et al.Effect of sintering temperature on the characteristics of carbons based on mesocarbon microbeads[J].J Mater Sci,1997,38:135-139.
  • 9Sakagami S,Iwata K,Kawase M,et al.Carbon/carbon composite by carbon powder sintering method[A].Proceedings 1 st Japan International SAMPE Symposium[C].November 28-December 1,1989.
  • 10Schmidt J,Moergenthaler K D,Brehler K P,et al.High strength graphites for carbon piston applications[J].Carbon,1998,36 (7-8):1079-1084.

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新型炭材料
2010年 第4期

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