功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
15期
2079-2082
,共4页
碳纤维%环氧树脂%界面%温敏性
碳纖維%環氧樹脂%界麵%溫敏性
탄섬유%배양수지%계면%온민성
carbon fiber%epoxy%interface%temperature sensitivity
为探索树脂基碳纤维复合材料(CFRP)温敏效应的机理,针对环氧树脂基体中碳纤维单丝及正交搭接的碳纤维界面进行了温敏效应实验。实验结果表明碳纤维单丝具有NTC效应,其温敏曲线线性稳定,碳纤维单丝被树脂浸润后,由于树脂膨胀带动纤维在其轴向的伸长,使得树脂基中碳纤维单丝的NTC效应有所减弱;树脂基中碳纤维界面表现出非线性变化的PTC效应,温度越高,其界面电阻随温度变化的趋势越显著,树脂基碳纤维复合材料的温敏特性是树脂基体中碳纤维单丝及其界面的温敏效应协同作用的结果,相对于碳纤维本身而言,碳纤维界面对温度变化更敏感,在CFRP温敏效应中占主导地位。
為探索樹脂基碳纖維複閤材料(CFRP)溫敏效應的機理,針對環氧樹脂基體中碳纖維單絲及正交搭接的碳纖維界麵進行瞭溫敏效應實驗。實驗結果錶明碳纖維單絲具有NTC效應,其溫敏麯線線性穩定,碳纖維單絲被樹脂浸潤後,由于樹脂膨脹帶動纖維在其軸嚮的伸長,使得樹脂基中碳纖維單絲的NTC效應有所減弱;樹脂基中碳纖維界麵錶現齣非線性變化的PTC效應,溫度越高,其界麵電阻隨溫度變化的趨勢越顯著,樹脂基碳纖維複閤材料的溫敏特性是樹脂基體中碳纖維單絲及其界麵的溫敏效應協同作用的結果,相對于碳纖維本身而言,碳纖維界麵對溫度變化更敏感,在CFRP溫敏效應中佔主導地位。
위탐색수지기탄섬유복합재료(CFRP)온민효응적궤리,침대배양수지기체중탄섬유단사급정교탑접적탄섬유계면진행료온민효응실험。실험결과표명탄섬유단사구유NTC효응,기온민곡선선성은정,탄섬유단사피수지침윤후,유우수지팽창대동섬유재기축향적신장,사득수지기중탄섬유단사적NTC효응유소감약;수지기중탄섬유계면표현출비선성변화적PTC효응,온도월고,기계면전조수온도변화적추세월현저,수지기탄섬유복합재료적온민특성시수지기체중탄섬유단사급기계면적온민효응협동작용적결과,상대우탄섬유본신이언,탄섬유계면대온도변화경민감,재CFRP온민효응중점주도지위。
In order to reveal the mechanism of temperature sensitivity for polymer-matrix carbon fiber composite(CFRP), the resistance variation with the temperature was measured for the carbon fiber itself and the overlapped carbon fiber interface of cross-ply configuration in epoxy. The NTC effect with good linearity and stability was found for the bare carbon fiber in the test, and it was weakened in the epoxy matrix due to the longitudinal tension caused by the matrix expansion. The carbon fiber interface in epoxy exhibits nonlinear PTC effect in which the interface resistance increased with the temperature with an increasing speed. The temperature sensi tivity of CFRP originates from the temperature sensitivity of carbon fiber and the carbon fiber interface, and it was governed by the second one which was more sensitive to the temperature.
