成果報告書詳細
管理番号20160000000667
タイトル*平成27年度中間年報 SIP(戦略的イノベーション創造プログラム)/革新的設計生産技術 ナノ物質の集積複合化技術の確立と戦略的産業利用  
公開日2016/8/18
報告書年度2015 - 2015
委託先名国立大学法人豊橋技術科学大学
プロジェクト番号P14030
部署名IoT推進部
和文要約
英文要約Title: SIP (Cross-Ministerial Strategic Innovation Promotion Program) / Innovative Design/Manufacturing Technologies, Development of Nano-Assembly Technique of Advanced Materials and Strategic Applications for Future Industry (FY2014-FY2018) FY2015 Annual Report

A novel processing technique for fabricating the integrated composite particles was successfully developed by present research group before. It was useful for developing the novel functional nano-composite, due to control the microstructure in composite. However, small amount of integrated composite particles were obtained by proposed conventional processing method, meaning that it is difficult to use practical applications for fabricating functional composite materials. In order to fabricate large amount of integrated composite powder, further improvement of fabrication technique needs for innovation of materials science. The manufacturing system with high productive capacity of composite particles has developed on basis of colloidal science in this project and then, useful examples of application for fabricating the composite powders were proposed to popularize as key technology in the material industry. The productive capacity of composite particles was enhanced from 50-100g/h to 1000g/h by use of the proposed controlling technique of quality of obtained composite particles, i.e., nano-particles are “homogeneously adsorbed” on large size of matrix particles. Useful applications for composite particle were also proposed in this research period. The aerosol deposition (AD) method is one of the attractive techniques to fabricate dense ceramic film at room temperature. The integrated composite particle, i.e., carbon nanotube (CNT) coated on alumina particle, was used as raw powder in AD technique. The obtained thick film formed on the substrate has excellent electrical conductivity with visible transmittance of 70-80%. In order to develop multifunctional ceramic thick film, several types of composite powders were fabricated by use of functional nano-powders. Other example of application for composite particle is functional ceramic powder for 3D printing process. The composite particle structure, i.e., nano-sized ceramic powder coated on large-size of unsinterable ceramic powder, exhibited good sinterability. It is meaning that the composite powder is useful for additive manufacturing processes. Novel idea for fabricating the 3D objects made by “composite” polymers has also proposed in this project. Roll-to Roll fabrication system is successfully developed to produce raw filament for 3D printing technique.
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