2017-02-012024-05-18https://scholars.lib.ntu.edu.tw/handle/123456789/713953摘要：近年來隨全球人口對健康議題之重視，走出戶外並參與相關運動之風潮亦隨之興起，也帶動戶外活動所需之服飾、裝備等需求成長。因此高附加價值之紡織材料的開發是目前紡織產業著重的新趨勢，可廣泛應用於自由滑雪、洞穴潛水、冰攀、飛鼠裝滑翔運動等高單價位的極限運動之周邊商品。但現今所使用的高端運動用之防寒、發熱衣，除了在導熱性、導電性及防寒性的提升上仍有很大發展空間之外，其服貼度及舒適度也仍需改善。本計畫將藉由改進紡織材料之奈米結構，以提升導電或導熱性質，並降低其製造價格。除此之外，近年來高附加價值之紡織材料與軟性基材的結合，延伸出高導電、導熱且具有服貼、輕量化等性質之穿戴式電子裝置 (flexible wearable electronics)的概念，這種元件除了對導熱、導電度之要求外，更需要所製備的電極與軟性基材之間的貼附性，以保持整體的電路設計與電性表現不會受到基材撓曲過程的影響。本計畫之主要目的是利用各式化學或物理方式製造具有高導熱、導電度紡織材料，並將其應用於服貼性穿戴式之電子製造與設計。我們在本計畫中預計完成下列事項: * 製備高導熱並具柔軟性之紡織複合材料。 * 製備高導電度之高導電奈米印刷材料，並可良好貼附於紡織複合材料。 * 發展印刷技術以快速於紡織複合材料上，製作圖案化之電子線路。 * 利用印刷線路製作具有發熱特性之防寒裝置。 總之，我們將結合高附加價值之紡織材料、快速印刷技術等製程，開發新一代高導熱、導電度紡織印刷線路，並利用印刷技術將其應用於具有服貼性的穿戴式電子裝置之製備，以製作經濟實惠、功能齊全且具備未來發展潛力之防寒發熱元件。本計畫將與博祥國際股份有限公司共同合作開發新型態的紡織品製造技術，一同分享計畫中所累積的知識、關鍵技術和經驗，以厚植台灣之紡織產業的技術實力並提升產品競爭力。 <br> Abstract: In recent years, the popularity of outdoor sport activities has shown great impact on sales for functional textile products, such as smart clothing or garments. These textile merchandise are especially needed for extreme sports like marathon, skiing, diving, ice climbing, and wingsuit flying. As a result, development of functional textile materials is a new trend in the textile industry and can be highly value-added. One of the high-end sporting textile product is the winter protection clothing, i.e., wearable electro-heating devices. These devices on the current market, however, are mostly made on rigid substrates and embedded in the textile clothing. Thus, the degree of neat and comfort can be greatly improved to fit the needs for costumers. To help developing next generation electronics for wearable devices, in this project, we will change the nano-structure of printing materials to enhance their mechanical properties, such as stretchability and adhesion on textile surfaces. These materials will be used to print on soft clothing materials to create flexible wearable heaters with great comfort and lightweight. The objectives are listed as follows:  Prepare highly thermal conductive and flexible textile composite materials.  Prepare highly electrical conductive materials with good adhesion on textile composite materials.  Develop related printing technology for circuit patterns on textile products.  Produce heat-generating devices characteristic with great mechanical stability and light weight. In short, we will formulate new printing materials and develop new printing technology to fabricate electrothermal devices on textile products. The thermal conductivity, electrical conductivity, stretchability and adhesion of the materials on textiles will be well characterized and optimized to fabricate high value-added textile products with printing process. We will work with Camangi Corporation to develop this new technology. By sharing knowledge, experiences and key technology in this project, we can strengthen the abilities for both academia and textile industry in Taiwan.可服貼導電導熱防寒紡織品印刷技術wearable electronicstextileheaterprinting technology