服装热生理舒适:纺织科学的视角

Md Rashedul Islam, Kevin Golovin, Patricia I. Dolez
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引用次数: 1

摘要

热生理舒适是人类生活的一个重要方面,有助于健康和工作表现。本文旨在从纺织科学的角度加深对服装热生理舒适的研究现状、进展和存在的挑战的理解。本文对服装热生理舒适的几个方面进行了全面的综述,重点介绍了热生理舒适预测模型的发展历史、皮肤-服装-环境系统中热量和水分的传递机制、热生理舒适的控制因素、提高热生理舒适度的纺织材料以及热舒适评估技术。研究表明,以往建立的热生理舒适模型主要基于人体体温调节过程。然而,人体皮肤与布层之间的气隙大小,即微气候对皮肤-服装-环境系统中热湿传递的影响在很大程度上被忽视了。此外,皮肤-服装-环境系统的热生理舒适模型通常只考虑干热阻和蒸发阻,而许多其他织物性能对人体热生理舒适有影响。确定了潜在的未来方向,以填补目前的一些空白。为了更好地理解热生理舒适性,还提出了一个服装舒适性的概念模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Clothing Thermophysiological Comfort: A Textile Science Perspective
Thermophysiological comfort is a crucial aspect of human life, contributing to health and work performance. The current paper aims to enhance the understanding of current research, progress, and remaining challenges regarding clothing thermophysiological comfort from a textile science perspective. It provides a comprehensive review of several facets of clothing thermophysiological comfort, focusing on the history of thermophysiological comfort prediction models, heat and moisture transfer mechanisms in the skin–clothing–environment system, controlling factors of thermophysiological comfort, textile materials for superior thermophysiological comfort, and thermal comfort assessment techniques. The paper shows that previously developed thermophysiological comfort models were mainly based on the human thermoregulation process. However, the effect of the air gap size between the human skin and the cloth layer, i.e., the microclimate, on the heat and moisture transfer in the skin–clothing–environment system has been largely overlooked. In addition, thermophysiological comfort models of skin–clothing–environment systems generally only considered dry thermal resistance and evaporative resistance, yet many other fabric properties have effects on human thermophysiological comfort. Potential future directions are identified to fill some of the current gaps. A conceptual model of clothing comfort to contribute to a better understanding of thermophysiological comfort is also proposed.
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