功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
23期
3228-3231
,共4页
郑华升%朱四荣%李静%李卓球%张小玉
鄭華升%硃四榮%李靜%李卓毬%張小玉
정화승%주사영%리정%리탁구%장소옥
CFRP%平面纯剪切%力阻效应
CFRP%平麵純剪切%力阻效應
CFRP%평면순전절%력조효응
CFRP%plane pure shear%piezoresistivity
自制装置构造构件的平面纯剪切变形,将薄层状的树脂基碳纤维复合材料(CFRP)粘贴在构件的纯剪切区域表面,在弹性范围内分析了CFRP的电阻对平面纯剪切变形的响应。实验结果表明,剪应变导致单向连续碳纤维增强的CFRP的纵向电阻变化不明显,其剪切力阻效应灵敏度约为0.16;碳纤维毡增强的CFRP具有显著的剪切力阻效应,其电阻表现出随剪应变线性的可恢复的增加,其剪切力阻效应灵敏度约为2.58。结合线应变致力阻效应产生机制,并通过CFRP细观结构的分析得出,纤维的随机乱向分布及纤维搭接形态的多样性是碳纤维毡增强的CFRP存在剪切力阻效应的主要原因。
自製裝置構造構件的平麵純剪切變形,將薄層狀的樹脂基碳纖維複閤材料(CFRP)粘貼在構件的純剪切區域錶麵,在彈性範圍內分析瞭CFRP的電阻對平麵純剪切變形的響應。實驗結果錶明,剪應變導緻單嚮連續碳纖維增彊的CFRP的縱嚮電阻變化不明顯,其剪切力阻效應靈敏度約為0.16;碳纖維氈增彊的CFRP具有顯著的剪切力阻效應,其電阻錶現齣隨剪應變線性的可恢複的增加,其剪切力阻效應靈敏度約為2.58。結閤線應變緻力阻效應產生機製,併通過CFRP細觀結構的分析得齣,纖維的隨機亂嚮分佈及纖維搭接形態的多樣性是碳纖維氈增彊的CFRP存在剪切力阻效應的主要原因。
자제장치구조구건적평면순전절변형,장박층상적수지기탄섬유복합재료(CFRP)점첩재구건적순전절구역표면,재탄성범위내분석료CFRP적전조대평면순전절변형적향응。실험결과표명,전응변도치단향련속탄섬유증강적CFRP적종향전조변화불명현,기전절력조효응령민도약위0.16;탄섬유전증강적CFRP구유현저적전절력조효응,기전조표현출수전응변선성적가회복적증가,기전절력조효응령민도약위2.58。결합선응변치력조효응산생궤제,병통과CFRP세관결구적분석득출,섬유적수궤란향분포급섬유탑접형태적다양성시탄섬유전증강적CFRP존재전절력조효응적주요원인。
The film-like carbon fiber reinforced plastic (CFRP) sample was attached to the base component to invest its resistance response to pure shear strain in elastic range by a self-made device. The results suggested that shear strain doesn't induce obvious longitudinal resistance response for the unidirectional carbon fiber rein-forced CFRP for its small gauge factor of 0.16. A prominent shear strain induced piezoresistivity of a gauge factor of 2.58 was revealed for carbon fiber mat reinforced CFRP, which manifests as the resistance increasing with the shear strain with good linearity and reversibility. By the comparison with the mechanism of normal strain induced piezoresistivity and the analysis on the micro structure, the paper reaches the conclusion that the random directions of carbon fibers and the morphological diversity of the carbon fiber junctions are the chief cause for the shear strain induced piezoresistivity of carbon fiber mat reinforced CFRP.
