スライドプレス型リールツーリール熱インプリントシステムの開発

カテゴリ: 論文誌(論文単位)

グループ名: 【E】センサ・マイクロマシン部門

発行日: 2011/07/01

タイトル(英語): A Sliding-press-type Reel-to-reel Thermal Imprint System for Fiber Substrates

著者名: 大友　明宏（BEANSプロジェクト　Macro BEANS センター／東芝機械（株）），銘苅　春隆（BEANSプロジェクト　Macro BEANS センター／（独）産業技術総合研究所　つくば東事業所），高木　秀樹（BEANSプロジェクト　Macro BEANS センター／（独）産業技術総合研究所　つくば東事業所），小久保　光典（BEANSプロジェクト　Macro BEANS センター／東芝機械（株）），後藤　博史（BEANSプロジェクト　Macro BEANS センター／東芝機械（株））

著者名(英語): Akihiro Ohtomo (Macro BEANS Center, BEANS Project/Toshiba machine co., ltd.), Harutaka Mekaru (Macro BEANS Center, BEANS Project/AIST Tsukuba East), Hideki Takagi (Macro BEANS Center, BEANS Project/AIST Tsukuba East), Mitsunori Kokubo (Macro BEANS Center, BEANS Project/Toshiba machine co., ltd.), Hiroshi Goto (Macro BEANS Center, BEANS Project/Toshiba machine co., ltd.)

キーワード: リールツーリール　プロセス，熱インプリント，繊維状基材，熱可塑性樹脂　　reel-to-reel process，thermal imprint，fiber substrate，thermo plastic

要約(英語): In the emerging fields related to healthcare, energy, and environment, realization of devices on flexible sheets is imminent. The materialization of such sheets would require fabrication of parts of devices on a fiber substrate where they can be assembled and interconnected by weaving. To broaden the area of a flexible sheet device, larger number of such devices will need to be formed directly on the fibers. Moreover, fabrication cost of a flexible sheet device, larger number of such devices will have to be addressed in order to make large size fabric manufacturable at affordable price. Therefore, a high-speed, low-cost, environmental friendly batch-manufacturing process of the devices on fiber is required. In this paper, we developed a reel-to-reel thermal imprint system combined with a sliding roller imprint mechanism. In this process, fiber substrate is sandwiched by a couple of flat molds, and these molds slide opposite direction each other under suitable press force and temperature. And then, we optimized conditions of this imprint process. Finally, we succeeded to imprint continuously more than 100 times and to fabricate 1.6 m long imprinted fiber. And we succeeded to imprint almost on entire cylindrical surface. A stable imprinted region was about 160° at each side.

本誌: 電気学会論文誌E（センサ・マイクロマシン部門誌） Vol.131 No.7 （2011）

本誌掲載ページ: 240-245 p

原稿種別: 論文／日本語

電子版へのリンク: https://www.jstage.jst.go.jp/article/ieejsmas/131/7/131_7_240/_article/-char/ja/