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Citation |
Watson C, Troynikov O, Lingard H. Ind. Health 2019; 57(3): 306-325. |
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Affiliation |
Property, Construction and Project Management, RMIT University, Australia. |
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Copyright |
(Copyright © 2019, National Institute of Industrial Health, Japan) |
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DOI |
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PMID |
30089764 |
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Abstract |
Personal protective clothing (PPC) is mandatory in hazardous industrial workplaces, but can increase thermophysiological strain, causing fatigue, reduced productivity, illness and injury. We systematically reviewed the literature on PPC and heat stress, focusing on research relating to working conditions of high temperature and humidity. PPC must protect industrial workers from a wide variety of hazards, including sun damage, abrasion, chemical spills and electrical burns; these competing demands inevitably compromise thermal performance. Fiber type, textile material construction and treatment need to be considered alongside garment fit and construction to design functional PPC providing wearers with adequate protection and comfort. Several approaches to materials and PPC testing - objective benchtop evaluation, mathematical modelling, and physiological testing - can be combined to provide high-quality thermal and vapor performance data. Our review provides a foundation and directions for further research in low-level risk PPC, where current research in fabrics and clothing in this category is very limited, and will help designers and manufacturers create industrial workwear with improved thermal management characteristics. Language: en |
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Keywords |
Functional design; Heat stress; Industrial workwear; Low-level risk protective clothing; Protective clothing; Thermal comfort |