文献类型：期刊文献

英文题名：Optimization design of custom pattern based on microclimate heat transfer

作者：Zhang, Yijie[1,2];Guo, Ziyi[2];Wei, Jiangang[1];Li, Yijun[1]

机构：[1]Shaoxing Univ, Shangyu Coll, Shaoxing, Peoples R China;[2]Zhejiang Sci Tech Univ, Sch Fash Design & Engn, Hangzhou, Peoples R China

年份：2024

外文期刊名：INTERNATIONAL JOURNAL OF CLOTHING SCIENCE AND TECHNOLOGY

收录：SCI-EXPANDED(收录号：WOS:001222329700001)、、EI(收录号：20242016093466)、Scopus(收录号：2-s2.0-85193031778)、WOS

基金：This work was supported by Zhejiang Provincial Philosophy and Social Science Planning Project under Grant number 23NDJC293YB.

语种：英文

外文关键词：Thermal comfort; Physical manikin; Heat transfer; Microclimate; Pattern optimization

外文摘要：PurposeThe aim of this paper is to achieve a reasonable microclimate between clothing and the human body and optimize the custom dress pattern.Design/methodology/approachAn interactive design method of 3D modeling, virtual try-on and heat transfer simulation are used. First, a 3D dress is designed with nonuniform rational B-splines curves and tried on virtually. After that, the heat transfer in the body-air-clothing microclimate and temperature distributions on the clothing surface are obtained. Based on the heat transfer in the body-air-clothing system, we design a method to improve the thermal comfort by optimizing the garment pattern digitally. Then, this paper utilized two heat transfer validating indexes to quantify the improvement of thermal comfort, and evaluate the modified model of dress.FindingsThe microclimate under the clothing is varied with the air gap distance, and the heat transfer on the area of the clavicle, bust point and front abandon are higher than other parts due to the narrow air gaps. In view of thermal comfort, the pattern optimization changes the distance ease and reforms the air circulating efficiency. The mean heat transfer and its standard variance are changing by about 10% and more than 20%. Thus, the heat transfer evaluation indexes are suitable to represent the heat transfer and thermal comfort in the microclimate system.Research limitations/implicationsIt can be concluded that the methodology proposed in this paper has the advantage of interactive design, 3D visualization and local heat transfer simulation. This technology meets the need of personalized customization and well-considered garment and has broad application prospects.Originality/valueThis study demonstrates that modifying the distance ease on body key girths based on heat transfer is a reliable way to improve thermal comfort. This method meets the consumers' demand of the comfort of body-fit clothing under the condition of daily activities. Highlights3D air gap distributions.Heat transfer varies with air gap distance.Thermal comfort can be improved by optimizing garment pattern.