极寒条件下防护服材料的隔热性能

IF 3.5 3区 医学 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Mohamed Zemzem , Stéphane Hallé , Ludwig Vinches
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引用次数: 2

摘要

在寒冷环境中,人体的热生理舒适主要由服装来保证。然而,纺织织物的热性能和防护能力可能对极端环境条件很敏感。本文评价了三种产业用纺织品组合体的保温性能,确定了环境参数(温度、湿度、风速)对其保温性能的影响。方法采用实验方法测定复合材料的保温性能和透气性。热阻测量采用基于国际标准化组织(ISO) 11092标准的防汗热板装置,俗称“皮肤模型”,模拟热量通过服装材料从人体表面传递到环境。结果当风速从0到16 km/h增加时,组件的隔热性能损失约85%。在某些条件下,已测量到接近1clo的值。另一方面,研究结果表明,温度变化范围(- 40°C, 30°C)以及湿度比变化(5 g/kg, 20 g/kg)对所研究组件的隔热影响有限。结论影响纺织织物热性能和防护性能的最重要变量是风速,而这一参数在iso11092标准中未被考虑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Thermal Insulation of Protective Clothing Materials in Extreme Cold Conditions

Thermal Insulation of Protective Clothing Materials in Extreme Cold Conditions

Thermal Insulation of Protective Clothing Materials in Extreme Cold Conditions

Thermal Insulation of Protective Clothing Materials in Extreme Cold Conditions

Background

Thermophysiological comfort in a cold environment is mainly ensured by clothing. However, the thermal performance and protective abilities of textile fabrics may be sensitive to extreme environmental conditions. This article evaluated the thermal insulation properties of three technical textile assemblies and determined the influence of environmental parameters (temperature, humidity, and wind speed) on their insulation capacity.

Methods

Thermal insulation capacity and air permeability of the assemblies were determined experimentally. A sweating-guarded hotplate apparatus, commonly called the “skin model,” based on International Organization for Standardization (ISO) 11092 standard and simulating the heat transfer from the body surface to the environment through clothing material, was adopted for the thermal resistance measurements.

Results

It was found that the assemblies lost about 85% of their thermal insulation with increasing wind speed from 0 to 16 km/h. Under certain conditions, values approaching 1 clo have been measured. On the other hand, the results showed that temperature variation in the range (−40°C, 30°C), as well as humidity ratio changes (5 g/kg, 20 g/kg), had a limited influence on the thermal insulation of the studied assemblies.

Conclusion

The present study showed that the most important variable impacting the thermal performance and protective abilities of textile fabrics is the wind speed, a parameter not taken into account by ISO 11092.

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来源期刊
Safety and Health at Work
Safety and Health at Work Social Sciences-Safety Research
CiteScore
6.40
自引率
5.70%
发文量
1080
审稿时长
38 days
期刊介绍: Safety and Health at Work (SH@W) is an international, peer-reviewed, interdisciplinary journal published quarterly in English beginning in 2010. The journal is aimed at providing grounds for the exchange of ideas and data developed through research experience in the broad field of occupational health and safety. Articles may deal with scientific research to improve workers'' health and safety by eliminating occupational accidents and diseases, pursuing a better working life, and creating a safe and comfortable working environment. The journal focuses primarily on original articles across the whole scope of occupational health and safety, but also welcomes up-to-date review papers and short communications and commentaries on urgent issues and case studies on unique epidemiological survey, methods of accident investigation, and analysis. High priority will be given to articles on occupational epidemiology, medicine, hygiene, toxicology, nursing and health services, work safety, ergonomics, work organization, engineering of safety (mechanical, electrical, chemical, and construction), safety management and policy, and studies related to economic evaluation and its social policy and organizational aspects. Its abbreviated title is Saf Health Work.
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