Patent
長寿命の光誘起活性中心を用いる層状材料の製造法
Japan Patent Office
09/11/2015
Abstract
PROBLEM TO BE SOLVED: To provide a method for applying a photo-activated layered polymer coating onto a substrate material.
SOLUTION: At least two separate monomer layers at least one of which includes a photoinitiator capable of producing cationic active centers are applied onto the substrate material. The at least one layer including the photoinitiator is exposed to a source of UV radiation at a desired wavelength forming cationic active centers, whereby the at least two separate monomer layers react in a polymerization reaction which forms a cured layered material. The cationic active centers of the exposed monomer layer migrate to the unexposed layer such that both layers cure via the polymerization reaction. The cure is accomplished in not less than one layer with the method by cationic active center mobilization without containing the photoinitiator or without exposing to initiating light.
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【課題】基板材料に光活性層状高分子被覆膜を適用する方法を提供する。
【解決手段】基板材料に、少なくとも1つがカチオン活性中心を形成し得る光開始剤を含有する少なくとも2つの分離モノマー層を適用し、光開始剤を含有する少なくとも1つの層を、カチオン活性中心を形成する望ましい波長にて紫外線源で感光し、その際に硬化した層状材料を形成する重合反応で少なくとも2つの別個のモノマー層が反応し、両層が重合反応により硬化するように感光されたモノマー層のカチオン活性中心が未感光層に移動して、1つ以上の層が光開始剤を含有しないか又は開始光で感光されないでもカチオン活性中心の移動により硬化する方法。
【選択図】図1
Details
- Title: Subtitle
- 長寿命の光誘起活性中心を用いる層状材料の製造法
- Creators
- Alec B Scranton (Inventor) - University of Iowa, Chemical and Biochemical EngineeringCynthia G Templeman (Inventor)Beth Ann Ficek (Inventor)Cindy Hoppe (Inventor)
- Contributors
- Toyota Motor Engineering & Manufacturing North America Inc (Assignee)University of Iowa Research Foundation (Assignee)
- Resource Type
- Patent
- Publisher
- Japan Patent Office; Japan
- Patent
- JP 2011088135; Japan Patent Office (Japan, Tokyo) - JPO; Published; 2010201029; 09/08/2010
- Number of pages
- 13 pages
- Translated title
- Method for Producing Layered Materials Using Long-Lived Photo-Induced Active Centers
- Language
- Japanese
- Date published
- 09/11/2015
- Academic Unit
- UI Research Foundation; Chemical and Biochemical Engineering
- Record Identifier
- 9984221957102771
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