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成果報告書詳細
管理番号20170000000854
タイトル*平成28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イノベーションソサエティを活用した中部発革新的機器製造技術の研究開発
公開日2017/11/14
報告書年度2016 - 2016
委託先名一般社団法人日本機械学会 国立大学法人名古屋大学 国立大学法人福井大学
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 Manufacturing Technology for Innovative Apparatus and Innovation Society from Central Japan (FY2014-FY2016) FY2016 Annual Report

Our group focused on the following goals in FY2016
(1) R&D for 3D Printing of Metal-Polymer Composite Materials (Nagoya Univ.)
 1) Fabrication of micro-temperature sensors on blood vessel models
The micro-temperature sensor, which composed of a Cu2O-rich sensing part and two Cu-rich electrodes, were directly fabricated by femtosecond laser reduction pattering of CuO nanoparticles on blood vessel models with nonplanar surfaces.
 
(2) R&D for 3D Printing of Polymers with Multiple Properties (Nagoya Univ.)
 1) Development of temperature indicator for surgical simulator.
We fabricated 3D blood vessel model with temperature indicator function. (Temperature range: 70 - 100 ℃, Accuracy : ±2.5℃). The 3D vessel model is fabricated with dip coating process.

(3) Development of Model Parts for Highly Realistic Surgical Simulator (Nagoya Univ., Fin-Biomedical Ltd)
 1) Collection of 3D shape and physical property data of heart
We collected 3D shape and physical property data of human heart and constructed 3D data of human heart model for endovascular surgery simulation.
 2) Prototyping 3D heart model for data validation
We prototyped 3D heart model with the constructed 3D data with conventional fabrication techniques for data validation and demonstration for medical doctors
 3) Prototyping modular-structured endovascular simulator EVE2
We designed and prototyped a modular-structured surgical simulator EVE2 by integrating the modular-structured blood vessel models sensors developed and materialized in this project by the last year.

(4) Development of Die-free Hybrid Sheet Metal Forming Technology (Fukui Univ.)
1) Development of incremental sheet metal forming technology
Incremental sheet metal forming technology for magnesium alloy sheets with a thickness of 1.0 mm and commercial pure titanium sheets with a thickness of 1.0 mm and Ti-6Al-4V titanium alloy sheets with a thickness of 0.7mm was developed.
2) Development of miniature incremental sheet metal forming technology
Incremental sheet metal forming technology for commercial titanium and SUS304 stainless steel foil with a thickness of 0.2 mm and product size of 20mm x 20 mm was developed. Forming accuracy of 0.04 mm in height and 0.15 mm in radius was achieved.
3) Development of incremental forming - milling combined forming technology
Aluminum alloy sheet was formed by combination of incremental forming process in the first stage and milling in the second stage. Forming accuracy was improved from 0.1 mm with only incremental forming to 0.03 mm with combined method.

(5) Development of Innovation Society (Japan Society of Mechanical Engineers).
 1) Innovation forum system
The prototype innovation forum system has been opened at JSME HP.
 2) A domestic innovation conference is to be held of iJSME2016
Gathering such various fields of players as SIP participating members, company researchers and the like, iJSME2016 (Innovation from JSME 2016) was held. In this conference the system were actually applied for realizing the virtual poster/oral presentations of which they made presentations from distant place with WEB equipment and systems.
Outline of iJSME2016
* November 24-25, 2016 at Waseda University
* Participant: 321
* Poster & Presentation: 36
* Invitation lecture: 4
 3) AI platform for delight Art is to be contracted.
AI system (PLAtform of NETwork by Artificial Intelligence for Delight Art: PLANET AIDeA) matches various fields of players as SIP participating members with company researchers using their technical information.
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