摘要
针对目前常规织物导湿排汗性能测试仪器自动化程度不高,测试精度低等问题,依据织物干燥与润湿状态下电阻值的显著变化设计了一套高精度、全自动织物导湿排汗测试装置。借助自制仪器对11块Coolmax涤纶针织物的导湿排汗性能进行了测试,并分别将毛细效应法及质量称量法结果与自动测试装置测试结果进行对比。结果表明:织物导湿排汗测试装置测试重复性和再现性好,可完成液滴在织物内部扩散及蒸发情况测试;织物多方向芯吸指标优于纵横2方向芯吸指标,织物干燥时间测试结果较传统质量称量法测试结果准确;液滴在织物不同方向上芯吸速率和干燥时间的最大极差率数值较大,织物各方向芯吸性能和干燥性能差异明显。
A serf-made fabric testing instruments using resistance theory was developed to track the moisture transmission and perspiration across the fabrics against the root problem of low level of automation conditions and measuring precision. 11 pieces of Coolmax polyester knitted fabrics were tested by the serf-made testing instrument, the classic capillary effect method and the weighing method. show that the serf-made fabric testing instrument can test moisture transmission and perspiration Results of fabric with good repeatability. The sweat transmitting coefficients of multiple directions are more efficient assessment indicators than those of latitude and longitude. The fabric drying time tested by the self-made testing instrument is extremely precise, which can substitute the drying time indicators of classic weighing method. And significant differences exist among different directions for drop moisture transmission and perspiration across fabrics for big range ratio.
出处
《纺织学报》
EI
CAS
CSCD
北大核心
2018年第1期45-50,共6页
Journal of Textile Research
基金
浙江省自然科学基金项目(LQ12E05012)
浙江省科技厅国际合作项目(2015C34014)
关键词
针织物
导湿排汗
芯吸性能
干燥性能
knitted fabric
moisture transmission and perspiration
wicking property
drying property