机构地区:[1]武汉纺织大学生物质纤维与生态染整湖北省重点实验室,湖北武汉430200
出 处:《纺织学报》2023年第10期113-119,共7页Journal of Textile Research
基 金:国家自然科学基金项目(62101391);盛虹·应急保障与公共安全用纤维材料及其制品科研攻关项目(2021-fx010302);中国纺织工业联合会科技指导性计划项目(2022043)。
摘 要:针对柔性应变传感器目前存在的灵敏度低、应变范围窄、反复拉伸后性能不稳定、功能单一等问题,采用预拉伸浸渍法以商用弹性包芯纱为柔性基体、水性聚氨酯(WPU)为分散剂和黏合剂、长银纳米线(AgNWs)为导电材料制备了具有应变传感与电热双功能的包芯纱。借助X射线衍射仪、扫描电子显微镜、数字万用表、万能试验机、菲力尔热像仪对AgNWs的晶体结构及双功能包芯纱的形貌结构、电学性能、力学性能、电热性能进行表征和分析。结果表明:当弹性包芯纱的预拉伸应变量为30%且AgNWs的负载量为15%时,制备的双功能包芯纱的鞘层棉纤维上形成了致密的AgNWs导电网络;在宽应变范围(0%~70%)内呈现明显的应变传感性能,灵敏度最高可达12.8,反复拉伸后的应变传感和力学性能稳定;在手指的运动监测中,手指发生小幅度和大幅度的弯曲变化,双功能包芯纱均能做出相应的电信号响应,体现了高灵敏度;5 V电压下,静态拉伸范围为0%~50%时,双功能包芯纱的温度变化范围为49.8~65.7℃,体现了优异的电热性能。Objective Strain sensing is one of the important functions of a smart fabric,which can transform the external stress(or strain)into visible electrical signals and monitor the physiological and motion characteristics of human body.At present,the flexible strain sensor has some problems,such as low sensitivity,small strain range and unstable performance after multiple stretching.Method AgNO3 was used as silver source material,NaCl and NaBr as nucleating agent,polyvinylpyrrolidone as ending agent,ethylene glycol as solvent and reducing agent in the reaction to prepare long silver nanowires.The commercial elastic core-spun yarn with single spandex fiber as inner layer,polyester fiber as sheath as flexible matrix,water-borne polyurethane(WPU)as dispersing agent and binder,and long silver nanowires(AgNWs)as conductive material was prepared by pre-stretch impregnation method with dual functions of strain sensing and electric heating.Results AgNWs prepared by polyol method have uniform morphology,uniform dispersion,length up to 155μm,diameter only 146 nm,and aspect ratio up to 1000(Fig.1(b)).When the mass ratio of AgNWs/WPU is 2∶1 and the core-spun yarn is pre-stretched by 30%,AgNWs can adhere to a single cotton fiber to form a stable and dense AgNWs conductive network(Fig.2).When the load of AgNWs was 15%,the percolation threshold is reached,and the conductivity value became 466 S/m(Fig.3(a)).During stretching,the conductive network formed by AgNWs was deformed together with the inner spandex fiber,and the core-spun yarn exhibited a Gauge factor value of 12.7 at the highest within a wide strain range of 0%-70%.When the core-spun yarn was drawn,the stress gradually increases with the deformation.When the tensile length reached 25 mm,i.e.,the elongation of 250%,the polyester fiber began to break.The cyclic tensile mechanical properties of core-spun yarns under 10%strain were further tested(Fig.5(b)).The deformation of core-spun yarns could be quickly recovered after repeated stretching for at least 10 times,showing goo
关 键 词:包芯纱 预拉伸 银纳米线 应变传感 电热性能 智能可穿戴
分 类 号:TS195.5[轻工技术与工程—纺织化学与染整工程]
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