Optimization and Performance Validation of Inner Lining Fabric for High-Temperature Live-Working Shielding Suit
In response to the subjectivity and ambiguity in selecting inner lining fabrics for high-temperature live-working shielding suits,the entropy weight-rank sum ratio method was introduced to quantitatively select the optimal fabric to improve the thermal and moisture comfort of shielding suits.Six moisture-conducting fabrics were chosen for analysis.Using the entropy weight-rank sum ratio method,fabrics were ranked and categorized based on thermal conductivity,moisture wicking,instant cool touch and dynamic moisture management capabilities.Fabric with the best comprehensive properties was selected for the shielding suit liner,and the effectiveness of the research method was verified by ergonomic experiments.The results indicate that the 2#polyester-polypropylene double-layer unidirectional moisture-conducting fabric performs best,making it suitable as a single-direction moisture-conducting fabric.Further investigation reveals that adding an inner liner has no significant impact on the overall ergonomic performance of the shielding suit.The ergonomic perfor-mance of current shielding suits in areas such as knee and hip requires improvement.These findings confirm the feasibility of the entropy weight-rank sum ratio method for optimizing inner lining fabrics in shielding suits,and provide a reference for further development and enhancement of high-temperature live-working shielding suits.
high-temperature environmentlive-working shielding suitfabric optimizationergonomic experimententropy weight-rank sum ratio method
万方数据
维普
