一种新型人体热舒适度测量系统的研制

IF 0.5 Q4 ENGINEERING, BIOMEDICAL Journal of Biomimetics, Biomaterials and Biomedical Engineering Pub Date : 2022-07-22 DOI:10.4028/p-l1p3kn
Dilara Egeli, E. Oner, A. Seçkin, M. Seçkin
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引用次数: 0

摘要

使穿着者在不产生生理和心理感受的情况下感到舒适,承担体温调节系统对环境温度变化的作用,使穿着者对自己的外表和态度特征在心理上感到满意,从而更容易适应所处的环境。由于服装的所有这些功能通常被定义为“服装舒适”,旨在提高人们的生活水平,因此以最现实的方式测量服装舒适度的研究在学术界和行业中都具有重要意义。在本研究中,拟开展热人体模型系统,该系统能与热、湿、压舒适等重要参数一起进行客观评价,这些参数是决定消费者服装选择的最重要标准,该系统能提供不同环境条件下的测量,并能实现温度、湿度和压力的瞬时测量。在这个计划中,设计了一个实用的人体模型系统,用于热、湿度和压力舒适性测量,并允许同时测量和评估许多特征。与文献中的热模型机制不同,热模型系统将采用实用且可重构的3D打印技术生产,该技术允许重新生产。
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Development of a Novel Thermal Mannequin System for Thermal Comfort Measurements
Giving comfort to the wearer without feeling physiologically and psychologically by the wearer, assuming the role of thermoregulation system against environmental temperature changes, and making them psychologically happy with their appearance and attitude characteristics makes it easier to adapt to the environment in which they live. Since all these functions of garments are generally defined as ‘clothing comfort' and aim to increase the living standards of people, the studies carried out to measure clothing comfort in the most realistic way are of great importance both academically and sectorial. In this study, it is planned to carry out the thermal mannequin system that can act to objectively evaluate together with the important parameters of thermal, humidity and pressure comfort, which are the most important criteria in determining the clothing choice of consumers, that can provide measurement in different ambient conditions, and that allows instantaneous measurements of temperature, humidity and pressure. Within this plan, a practical mannequin system has been designed for thermal, humidity and pressure comfort measurements and will allow measuring and evaluating many features at the same time. The thermal mannequin system will be produced with practical and reconfigurable 3D printing technology, which allows re-production, unlike the thermal mannequin mechanisms in the literature.
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来源期刊
CiteScore
1.40
自引率
14.30%
发文量
73
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