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首页> 外文会议>Second International Conference on Safety amp; Protective Fabrics, Apr 26-28, 2000, Arlington, VA >THE USE OF MICROENCAPSULATED PHASE-CHANGE MATERIALS TO ENHANCE THE THERMAL PERFORMANCE OF APPAREL
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THE USE OF MICROENCAPSULATED PHASE-CHANGE MATERIALS TO ENHANCE THE THERMAL PERFORMANCE OF APPAREL

机译:使用微囊化相变材料增强服装的热性能

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摘要

Recent advancements in the apparel industry have generated increasing interest in phase-change materials (PCMs), due largely to the advantages of microencapsulation. Microencapsulated phase change materials (microPCMs) provide latent heat benefits nearly equal to those of bulk PCMs, yet the PCM remains contained within a shell when melted. As such, microPCMs can be incorporated into a wide variety of products to greatly improve thermal management. MicroPCMs can be incorporated into both solid and liquid carriers. They can increase the thermal capacitance of solids as much as 10 times, while the effective heat capacities of fluid-based microPCM systems have been shown to increase as much as 40 times (Mulligan et al., 1996). Extensive microPCM research by Triangle Research and Development Corporation, among others, has ultimately led to the creation of numerous thermally enhanced apparel products. As the capabilities of microPCMs become more widely known, the number and variety of microPCM-based apparel and footwear products continue to grow.
机译:服装行业的最新进展已引起人们对相变材料(PCM)的日益增长的兴趣,这在很大程度上归因于微囊化的优势。微囊化的相变材料(microPCM)提供的潜热效益几乎与散装PCM的潜热效益相同,但PCM熔化后仍保留在壳内。这样,可以将microPCMs集成到各种各样的产品中,以大大改善热管理。 MicroPCM可以结合到固体和液体载体中。它们可以使固体的热容量增加多达10倍,而基于流体的microPCM系统的有效热容量已显示增加了40倍(Mulligan等,1996)。三角研究与开发公司(Triangle Research and Development Corporation)进行的大量microPCM研究最终导致了许多耐热增强型服装产品的创造。随着microPCM的功能越来越广为人知,基于microPCM的服装和鞋类产品的数量和种类不断增长。

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