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充气保暖服装的热湿舒适性分析 被引量:5

Analysis of Thermal-Moisture Comfort of the Inflatable Thermal Clothing
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摘要 采用热压充气面料开发一款充气保暖男士马甲。为了量化马甲最佳充气厚度并验证其热湿舒适性,对不同充气厚度的试样进行保暖性测试和试样内气压测试;挑选5名健康男性穿着相同的测试服装,在15℃、相对湿度60%的气候仓中进行人体着装运动实验,分析左胸口、背部、腰部和腹部的近体表温度和衣下空气层相对湿度的变化情况。结果表明:充气厚度越大,保暖效果越好,此款马甲的最佳充气厚度为20 mm;在20 mm充气厚度条件下,此款充气马甲具有良好的保暖性能,且在强度较小的运动中能够保持良好的热湿舒适性。 In order to quantify the inflation thickness of an inflatable thermal vest and verify its good thermal and moisture comfort,the inflation thickness of the inflatable thermal vest was optimized through the thermal insulation test and the air pressure test in the samples with different inflation thicknesses.Five healthy men are selected to wear the same test clothes and do the exercise experiment in a climate chamber with a relative humidity of 60%at 15℃,and the changes of the near-body surface temperature and the relative humidity of the air layer under the garment in the left chest,back,waist and abdomen are measured and analyzed.Results show that the higher the inflation thickness is,the better the heat preservation effect.The best inflation thickness of this vest is 20 mm,where the inflatable thermal vest has good thermal insulation performance,while maintaining good thermal and moisture comfort in less intense sports.
作者 郝静雅 李艳梅 王方明 HAO Jingya;LI Yanmei;WANG Fangming(Fashion College,Shanghai University of Engineering Science,Shanghai 201620,China;Suzhou Xingfengqiang Textile Technology Co.,Ltd.,Suzhou 215228,China)
出处 《服装学报》 CAS 2020年第3期200-205,共6页 Journal of Clothing Research
基金 国家自然科学基金项目(11802171) 闽江学院现代服装技术协同创新开放基金项目(MJKFFZ201702) 上海工程技术大学研究生科技创新项目(E3-0903-18-01183)。
关键词 充气服装 保暖服装 热湿舒适性 测评 inflatable clothing thermal clothing thermo-moisture comfort performance evaluation
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  • 1彭见曙,夏雅琴,林兆娣.体表温度及其总体平均值的测量与统计分析[J].北京工业大学学报,1994,20(1):49-53. 被引量:7
  • 2冯士雍,李仁欣,唐世君.服装主观热感觉的统计分析[J].数理统计与管理,1994,13(2):1-7. 被引量:1
  • 3刘丽英.着装人体热感觉预测模型[J].青岛大学学报(工程技术版),2006,21(4):14-18. 被引量:3
  • 4KICKLIGHTER T H,EDSALL J R, MARTIN M. Effectof moisture-wicking garments on temperature regulationduring exercise [ J ]. Int J Athl Ther Trai,2011 , 16:9-13.
  • 5KINNICUTT P, DOMINA T,MACGILLIVRAY M, etal. Knit-in 3D mapping's effect on thermoregulatory:preliminary results [ J ]. J Text I,2010,101 :120 -127.
  • 6KITTERINGHAM G. Outdoor clothing now matchesinsulation to specific zones [ J ]. Tech Text Int, 2006,15: 21 -22.
  • 7WANG F, DEL FERRARO S, MOLINARO V, et al.Assessment of body mapping sportswear using a manikinoperated in constant temperature mode andthermoregulatory model control mode [ J ]. Int JBiometeorol, 2014,58 : 1673 - 1682.
  • 8NISHI Y, GAGGE A P. Direct evaluation of convectiveheat transfer coefficient by naphthalene sublim-ation [J]. J Appl Physiol, 1970 , 29: 830 -838.
  • 9WANG F, DEL FERRARO S, LIN L Y, et al.Localised boundary air layer and clothing evaporativeresistances for individual body segments [ J ].Ergonomics, 2012,55: 799 - 812.
  • 10WANG F, ANNAHEIM S,MORRISSEY M, et al. Realevaporative cooling efficiency of one-layer tight fittingsportswear in a hot environment [ J ]. Sc and J Med SciSports,2013 , doi: 10. 1111/sms. 12117.

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