ロベルト・カルバレス・バエナ

Go to Content Please enable Javascript to use all functions. MENU CLOSE Inquiry Access Japanese Japanese Search Frequently searched keywords hydrogen fuel cell FH2R ammonia artificial intelligence News News News List Topics (Photo Gallery) Events Events Current Events Past Events Activities Activities Project Fields Energy Environment Mechanical systems Electronics and telecommunications Materials and nanotechnology Biotechnology International expansion support Global warming countermeasures Cross-sectoral proposal-based activities Industry-academia collaboration / human resource development Surveys, evaluations, and other activities Pickup Publications Publications Brochures Focus NEDO Reports NEDO　Channel About NEDO About NEDO Chairman's Message Budget Technology Development Fields NEDO's Initiatives--> Background Information Executives Organization Domestic offices Overseas offices Washington, D.C. Silicon Valley Bangkok Beijing Europe New Delhi Links Frequently searched keywords hydrogen fuel cell FH2R ammonia artificial intelligence Inquiry Access Home Activities Materials and nanotechnology Materials and components Development of New Innovative Composite Materials and Forming Technologies Development of New Innovative Composite Materials and Forming Technologies Project overview Project period: FY2020 to FY2024, budget: 1.2 billion yen (FY2023) In the aircraft industry, there is a market need to reduce energy consumption and CO2 emissions by improving aircraft fuel efficiency, maintainability, and safety, and highly advanced technology development of composite materials as structural members for weight reduction is underway. As international industrial competition intensifies, there is an urgent need to develop these components and processing technology. In this project, NEDO aims to resolve the above issues and strengthen the international competitiveness of the Japanese industry by developing aircraft structural components and processing technology, as well as lightweight, heat-resistant CMC*1 engine components. Project explanation diagram Research and Development Development of Airframe Design Technology to Realize Ideal Airframe Structure in the Composite Materials Era NEDO will take advantage of the special characteristics of thermoplastic CFRP*2 to develop structural design technology that will serve as the basis for manufacturing lighter and stronger airframes than thermoset CFRP ("the ideal airframe of the composite materials era") at production rates equivalent to or higher than those of aluminum airframes. Development of High-rate Molding Technology for Lightweight Aircraft Fuselage Components Utilizing Thermoplastic CFRP NEDO will design corrugated sheet sandwich structural parts using thermoplastic composite materials and develop molding/joining technology with high productivity, with the aim of applying this to next-generation lightweight floor panels. Development of High-strength, High-speed Joint Assembly Technology between Composite Members and Other Materials in Aircraft Parts NEDO will develop an innovative elemental technology to join thermosetting CFRP components, which have a proven track record as aircraft structural materials, by thermal welding. Development of CMC Materials and Processes that Enable High-rate and Low-cost Production Through the development of manufacturing technology for 1400ﾟC class CMC components, NEDO will achieve the CMC challenge of lower costs and higher rates by saving labor and optimizing the process for the practical application of CMC in aircraft engines. *1 CMC: An abbreviation for Ceramic Matrix Composite, which is a ceramic matrix composite material. *2 CFRP: An abbreviation for Carbon Fiber Reinforced Plastic, which is carbon fiber reinforced plastic. Project Manager MATSUI Katsunori NEDO develops elemental technology to solve reliability and cost issues for aircraft, focusing on the development of composite materials and other related technology to meet the demand for improved fuel efficiency, environmental compatibility, maintainability, and safety of aircraft. Our goal is to establish a new low-cost, high-rate molding and assembly technology for composite components that will be essential in the manufacturing process of narrow-body aircraft, which are expected to account for 70% of future aircraft demand. For these research and development efforts, NEDO will work to secure and disseminate substantial research results for practical application as soon as possible. Basic information Technical field Materials and components Project code P20010 Department in charge Materials Technology and Nanotechnology Department (TEL: +81-44-520-5220) Last Updated : February 9, 2024 　　　Top Terms of Website Use Privacy Policy New Energy and Industrial Technology Development Organization JCN（Japan Corporate Number） 2020005008480© New Energy and Industrial Technology Development Organization. All rights reserved.