[1]李莎莎,李 俊*.消防服性能测评技术及其综合评价原则[J].服装学报,2017,2(03):212-217.
 LI Shasha,LI Jun*.Study on the Performance Evaluating Methods and Comprehensive Evaluation Principles of Fire Fighting Clothing[J].Journal of Clothing Research,2017,2(03):212-217.
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消防服性能测评技术及其综合评价原则()
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《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第2卷
期数:
2017年03期
页码:
212-217
栏目:
服装工程技术
出版日期:
2017-06-30

文章信息/Info

Title:
Study on the Performance Evaluating Methods and Comprehensive Evaluation Principles of Fire Fighting Clothing
作者:
李莎莎1; 2;  李 俊*1; 2; 3
1.东华大学 服装与艺术设计学院,上海 200051; 2.东华大学 功能防护服装研究中心,上海 200051; 3.东华大学 现代服装设计与技术教育部重点实验室,上海 200051
Author(s):
LI Shasha1; 2;  LI Jun*1; 2; 3
1.Fashion and Art Design Institute, Donghua University, Shanghai 200051,China; 2.Protective Clothing Research Center, Donghua University, Shanghai 200051, China; 3.Key Laboratory of Clothing Design and Technology, Ministry of Education, Donghua University,Shanghai 200051,China
分类号:
TS 941.73
文献标志码:
A
摘要:
消防服作为保护消防员身体免受热火场中各种伤害的重要防护装备,其性能的测试与评估是使用前的关键步骤。分析了消防服各种性能之间的交互作用,阐述消防服热防护性能、热湿舒适性能、工效性能的测评手段以及评价指标,并对测评结果进行综合分析,在此基础上提出建立测评结果综合分析原则,从而更加合理、客观地分析测评结果。
Abstract:
Firefighting clothing is an important protective equipment to protect firefighters from heat damage in fire. Performance testing and evaluation are the key steps in the practical application. This paper analyzed the interaction of thermal protective performance, thermal-moisture comfort and ergonomic performance, and had a comprehensive analysis of the evaluation results. The comprehensive testing and evaluation principles were then established based on the above discussion to analyze the evaluation results more reasonably and objectively.

参考文献/References:

[1] Barker R.A review of gaps and limitations in test methods yield meaningful protective clothing and equipment[R].Pittsburgh:National Institute for Occupational Safety and Health,2005.
[2] 中华人民共和国公安部.消防员灭火防护服GA10—2002[S].北京:中国标准出版社,2003.
[3] 崔志英.消防服用织物热防护性能与服用性能的研究[D].上海:东华大学,2009.
[4] Nunneley S A.Heat stress in protective clothing:interactions among physical and physiological factors[J].Scandinavian Journal of Work and Environmental Health,1989(15):52-57.
[5] Behnke W P.Thermal protective performance test for clothing[J].Fire Technology,1977,13(1):6-12.
[6] 张梦莹,苗勇,李俊.防火服热蓄积的影响因素及其测评方法[J].纺织学报,2016,37(6):171-176.
ZHANG Mengying,MIAO Yong,LI Jun.Influence factors and evaluation methods of stored thermal energy in firefighters protectiveclothing[J].Journal of Textile Research,2016,37(6):171-176.(in Chinese)
[7] 付明,翁文国,袁宏永,等.低热辐射强度下防护服热防护性能的实验研究[J].清华大学学报(自然科学版), 2014,54(6):719-723.
FU Ming, WENG Wenguo, YUAN Hongyong, et al.Bench scale test of the thermal protective performance of protective clothing for low intensity thermal radiation[J].Journal of Tsinghua University(Natural Science Edition), 2014,54(6):719-723.(in Chinese)
[8] Standard test method for radiant heat performance of flame resistant clothing materials with burn injury prediction ASTM F2702—08[S].West Conshohocken,PA:ASTM International,2008.
[9] Eni E U.Developing test procedures for measuring stored thermal energy in firefighter protective clothing[D].Raleigh:North Carolina State University,2005.
[10] Hoschke B N.Standard and specification for firefighters’clothing[J].Fire Safety Journal, 1981, 4(2):125-137.
[11] Hummel A,Watson K,Baker R.Comparisons of two test methods for evaluation the radiant protective performance of wildland firefighter protective clothing materials[C]//Performance of Protective Clothing and Equipment.San Antonio:Lowa State University,2016:178-194.
[12] Standard test method for unsteady-state heat transfer evaluation of flame resistant materials for clothing with burn injury prediction ASTMF 2703—08[S].West Conshohocken, PA:ASTM International,2008.
[13] Standard test method for measuring the transmitted and stored energy of firefighter protective clothing systems ASTM F2731—11[S].West Conshohocken,PA:ASTM International,2011.
[14] 王敏,何佳臻,李俊,等.基于燃烧假人的民用防火服热防护性能测评[J].西南大学学报(自然科学版),2014,36(2):150-156.
WANG Min,HE Jiazhen,LI Jun,et al.A flash-fire manikin-based evaluation of the thermal protective performance of civilin fire-proof suits[J].Journal of Southwest University(Natural Science Edition),2014,36(2):150-156.(in Chinese)
[15] 胡淑蓉, 李俊.防护服性能测评进展[J].纺织学报,2011,32(5):148-154.
HU Shurong,LI Jun.Progress in research of protective clothing performance test and evaluation[J].Journal of Textile Research,2011,32(5):148-154.(in Chinese)
[16] Gasperin M,Juricic D.The uncertainty in burn prediction as a result of variable skin parameters:an experimental evaluation of burn-protective outfits[J].Burns,2009,35(7):970-982.
[17] Wastonk L.From radiant protective performance to RadMan TM:the role of clothing materials inprotecting against radiant heat exposures in wildland forestfires[D].Raleigh:North Carolina State University, 2014.
[18] 王敏,李俊,李小辉.燃烧假人在火场热防护服装研究中的应用[J].纺织学报,2013,34(3):154-160.
WANG Min,LI Jun,LI Xiaohui.Application of flame manikin in thermal protective clothingresearch[J].Journal of Textile Research,2013,34(3):154-160.(in Chinese)
[19] Rossi R M,Schmid M,Camenzind M A.Thermal energy transfer through heat protective clothing during a flame engulfment test[J].Text Research Journal,2014,84(13):1451-1460.
[20] HE J Z,WANG M, LI J.Determination of the thermal protective performance of clothing during bench-scale fire test and flame engulfment test:evidence from a new index[J].Journal of Fire Sciences,2015:1-14.
[21] 田苗,王云仪,张向辉,等.高温防护服的舒适工效性能评价与优化对策[J].东华大学学报(自然科学版),2013,39(6):754-759.
TIAN Miao,WANG Yunyi,ZHANG Xianghui,et al.Comfort-ergonomics evaluation and optimization of thermal protective clothing[J].Journal of Donghua Uuiversity(NaturalScience Edition), 2013,39(6):754-759.(in Chinese)
[22] Standard on protective clothing and equipment for wildland fire fighting NFPA1977—2011[S].Quincy,MA:National Fire Protection Association,2011.
[23] Ross K A.Evaluation of an instrumented sweating manikin for predicting heat stress in firefighters’ turnout ensembles[D].Raleigh:North Carolina State University,2006.
[24] Kai Sirén E F.A thermal manikin with human thermoregulatory control:implementation and validation[J].International Journal Biometeorol,2012,56(5):959-971.
[25] 李毅.服装舒适性与产品开发[M].北京:中国纺织出版社,2002:107-109.
[26] Havenith G, Heus R.A test battery related to ergonomics of protective clothing[J].Applied Ergonomics,2004,35(1):3-20.
[27] 何佳臻,李俊.防护服工效性能评价方法研究进展[J].纺织学报.2014,35(1):158-164.
HE Jiazhen,LI Jun.Advances in research of ergonomic evaluation for protective clothing[J].Journal of Textile Research,2014,35(1):158-164.(in Chinese)
[28] 孔庆岭.阻燃消防防护纤维及织物的研究[D].青岛:青岛大学,2007.
[29] 周亮,李俊.消防服材料热舒适性与热防护性能的影响研究[D].上海:东华大学,2011.
[30] 张欢,李俊.阻燃织物热湿舒适性及热防护性能研究[D].上海:东华大学,2016.
[31] 辛丽莎,李俊.消防服用面料系统热防护性能和热舒适性能的关系研究[D].上海:东华大学,2016.
(责任编辑:邢宝妹)

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更新日期/Last Update: 2017-06-30