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公开(公告)号:US20160193756A1
公开(公告)日:2016-07-07
申请号:US15072640
申请日:2016-03-17
发明人: Akihiro OSHIMA , Seiichi TAGAWA , Masakazu WASHIO , Tomoko OYAMA , Tomohiro TAKAHASHI , Satoshi OKUBO , Akinobu KOBAYASHI , Naotsugu NAGASAWA , Mitsumasa TAGUCHI
CPC分类号: B29C35/0866 , B29C39/026 , B29C39/38 , B29C2035/0844 , B29C2035/085 , B29C2035/0872 , B29C2035/0877 , B29C2035/0883 , B29K2027/18 , B29L2031/767 , B81C99/0085 , B82Y10/00 , B82Y40/00 , G03F7/0002 , Y10T428/24479
摘要: There are provided a microstructural material allowing a concavo-convex pattern of a mold to be imprinted thereon by hardening a pattern formative layer through an unprecedented method, and a fabrication method thereof. A PTFE dispersion liquid is used in a pattern formative layer 2a forming an imprint section 2, thereby allowing such pattern formative layer 2a formed on a concavo-convex pattern of a mold 5 to be hardened when irradiated with an ionizing radiation. Accordingly, the fabrication method of a microstructural material 1 of the present invention employs an imprinting method allowing the pattern formative layer 2a to be hardened through an ionizing radiation R, which is completely different from a thermal imprinting and an optical imprinting. That is, the pattern formative layer 2a can be hardened, and the concavo-convex pattern of the mold 5 can thus be imprinted thereon, through an unprecedented method.
摘要翻译: 提供了通过前所未有的方法硬化图案形成层,允许模具的凹凸图案印刷在其上的微结构材料及其制造方法。 在形成压印部分2的图案形成层2a中使用PTFE分散液,从而允许在用电离辐射照射时使形成在模具5的凹凸图案上的图案形成层2a硬化。 因此,本发明的微结构材料1的制造方法采用压印方法,允许图案形成层2a通过与热压印和光学印记完全不同的电离辐射R硬化。 也就是说,图案形成层2a可以被硬化,并且可以通过前所未有的方法将模具5的凹凸图案印刷在其上。
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