材料科学与工艺
材料科學與工藝
재료과학여공예
MATERIAL SCIENCE AND TECHNOLOGY
2015年
2期
45-52
,共8页
井敏%谭婷婷%王成国%冯志海%杨云华%潘月秀
井敏%譚婷婷%王成國%馮誌海%楊雲華%潘月秀
정민%담정정%왕성국%풍지해%양운화%반월수
碳纤维%微观结构%力学性能%表面形貌%孔结构%石墨微晶
碳纖維%微觀結構%力學性能%錶麵形貌%孔結構%石墨微晶
탄섬유%미관결구%역학성능%표면형모%공결구%석묵미정
carbon fiber%micro-structure%mechanical property%surface morphology%pore structure%graphite micro-crystal
东丽T800H和T800S是分别采用湿纺和干湿纺制备的两种力学性能相近的碳纤维,为弄清不同纺丝方法对T800级碳纤维微观结构的影响,采用扫描电镜、X射线衍射仪、小角X射线散射仪和高分辨透射电镜对这两种碳纤维进行测试,比较其表面形貌、断口形状和形貌、石墨微晶结构和微孔结构等.研究结果表明,湿纺制备的T800H比干喷湿纺制备的T800S的表面粗糙、断口圆度差、原纤尺寸较大、石墨微晶致密度差且发育不完善、内部微孔尺寸大、石墨微晶条带韧性差,这正是T800H的拉伸强度和断裂伸长率不如T800S的重要微观结构因素,但T800H的石墨微晶取向度不如T800S,孔隙率略高于T800S.
東麗T800H和T800S是分彆採用濕紡和榦濕紡製備的兩種力學性能相近的碳纖維,為弄清不同紡絲方法對T800級碳纖維微觀結構的影響,採用掃描電鏡、X射線衍射儀、小角X射線散射儀和高分辨透射電鏡對這兩種碳纖維進行測試,比較其錶麵形貌、斷口形狀和形貌、石墨微晶結構和微孔結構等.研究結果錶明,濕紡製備的T800H比榦噴濕紡製備的T800S的錶麵粗糙、斷口圓度差、原纖呎吋較大、石墨微晶緻密度差且髮育不完善、內部微孔呎吋大、石墨微晶條帶韌性差,這正是T800H的拉伸彊度和斷裂伸長率不如T800S的重要微觀結構因素,但T800H的石墨微晶取嚮度不如T800S,孔隙率略高于T800S.
동려T800H화T800S시분별채용습방화간습방제비적량충역학성능상근적탄섬유,위롱청불동방사방법대T800급탄섬유미관결구적영향,채용소묘전경、X사선연사의、소각X사선산사의화고분변투사전경대저량충탄섬유진행측시,비교기표면형모、단구형상화형모、석묵미정결구화미공결구등.연구결과표명,습방제비적T800H비간분습방제비적T800S적표면조조、단구원도차、원섬척촌교대、석묵미정치밀도차차발육불완선、내부미공척촌대、석묵미정조대인성차,저정시T800H적랍신강도화단렬신장솔불여T800S적중요미관결구인소,단T800H적석묵미정취향도불여T800S,공극솔략고우T800S.
Toray T800H and T800S have similar mechanical properties, which prepared by wet?spinning method and dry?wet?spinning method, respectively. In order to explore the effects of spinning method on the micro?structure of the T800?level carbon fibers, scanning electron microscope, X?ray diffractometer, small angle X?ray scattering system and high resolution transmission electron microscope were used to determine the structure of the two carbon fibers. Their surface morphology, fracture shape and morphology, graphic micro?crystal structure and micro?pore structure were compared. The results indicate that compared with T800S, T800H have more coarse surface, worse roundness of fracture shape, larger fibrils, more imperfect growth and worse compactness of graphic micro?crystal, bigger micro?pore and worse toughness of graphic ribbons, which leads to worse tensile strength and elongation of T800H. However, the orientation of graphic micro?crystal of T800S is not better than T800H and the porosity of T800S is higher than T800H.
