보고서 정보
주관연구기관 |
한국기술교육대학교 산학협력단 Korea University of Technology and Education |
보고서유형 | 최종보고서 |
발행국가 | 대한민국 |
언어 |
한국어
|
발행년월 | 2015-09 |
과제시작연도 |
2014 |
주관부처 |
국토교통부 Ministry of Land, Infrastructure, and Transport |
등록번호 |
TRKO201500019489 |
과제고유번호 |
1615007437 |
사업명 |
국토교통연구기획 |
DB 구축일자 |
2016-03-19
|
키워드 |
건축 3D프린팅 장비.건축 3D프린팅 재료.건축 3D프린팅 생산.건축 3D프린팅 시장.테스트베드.3D Printing Equipments for Architecture.3D Printing Materials for Architecture.3D Printing Products for Architecture.3D Printing Market for Architecture.Test-bed.
|
초록
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• “건축물 대상 3D 프린팅 장비 및 설계기술 개발 기획”과 관련된 핵심기술을 도출하기 위해 총 4단계로 기획연구를 수행함.
- 1)국내·외 정책, 시장, 기술 및 인프라 동향 및 환경 분석, 2)연구개발과제 구성 및 추진전략 수립, 3)연구개발과제 기획, 4)핵심성과(기술) 및 사전타당성 검토
• 그 결과, 기술 및 성과 로드맵과 과제 제안요구서(RFP)를 도출하였으며, 도출된 핵심성과(기술)은 다음과 같음.
- 1)3D 프린팅 기술 기반 단위모듈형 건축상품군 기획 및 엔지니어링 기술 개발,
2)단
• “건축물 대상 3D 프린팅 장비 및 설계기술 개발 기획”과 관련된 핵심기술을 도출하기 위해 총 4단계로 기획연구를 수행함.
- 1)국내·외 정책, 시장, 기술 및 인프라 동향 및 환경 분석, 2)연구개발과제 구성 및 추진전략 수립, 3)연구개발과제 기획, 4)핵심성과(기술) 및 사전타당성 검토
• 그 결과, 기술 및 성과 로드맵과 과제 제안요구서(RFP)를 도출하였으며, 도출된 핵심성과(기술)은 다음과 같음.
- 1)3D 프린팅 기술 기반 단위모듈형 건축상품군 기획 및 엔지니어링 기술 개발,
2)단위모듈 기반 건축상품군 출력을 위한 대형 3D 프린팅 생산플랫폼 개발,
3)단위모듈 규모 건축상품군 개발을 위한 융복합 3D 프린팅 소재 개발,
4)3D 프린팅 기술 기반 건축상품군 성능평가 및 검증과 마켓플랫폼 개발
Abstract
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The construction industry has recently run into the technical limitations such as the increase in the irregular structure production cost, demand for the precision production system, and inefficiency in production. To overcome such limitations, the 3D printing production platforms specialized for ar
The construction industry has recently run into the technical limitations such as the increase in the irregular structure production cost, demand for the precision production system, and inefficiency in production. To overcome such limitations, the 3D printing production platforms specialized for architecture are required. This study is about deriving the technical development projects regarding the combined commercialization of product planning and verification, including the 3D printing architecture product planning, complex printing for individual structures, 3D convergence printing material, and consumer-oriented market platforms.
The 3D printing technology is one of the twelve disruptive technologies chosen by Mckinsey, which is expected to have $ 55 billion economical ripple impact and change the business models for all industries, including manufacturing and construction. At present, basic 3D printing architecture products are being developed based on the traditional construction materials in countries such as the U.S, Europe, China. There is no product yet, which is based on the 3D printing production system. Therefore, the first development of the 3D printing materials and equipment for construction and architecture products can lead to the role of the technical leader in the global construction market and the exclusive market position. The 3D printing architecture products, 3D printing equipment and alternative materials should be developed as single packages according to the product types.
This study has been planned divided into the first four-year stage (2016-2020) for original technology development and the second four-year stage (2020-2023) for commercialization of products and production platforms.
In the first stage, the first-year goal is the product scale model verification, including the 3D printing technology architecture product planning, basic design, material, equipment and relevant research infrastructure, and the second-year goal is the partial product model verification, including the 3D printing architecture product group design, material, original equipment technology development planning and evaluation system. The third-year goal is the product mock-up test bed verification, including the individual architecture group development and verification, and 3D printing equipment and material technology development for architectures, and the fourth-year goal is the unit module real-scale test bed and small-scale architecture product group verification, including the 3D printing equipment and material technology stabilization and architecture product production platform development.
In the second stage, the first-year goal is the unit module scale model verification, including the future-technology-based 3D printing architecture product development and market platform planning; the second-year goal is the 3D printing architecture product and market platform prototype development and convergent performance material and equipment development; and the final third-year goal is the unit module real-scale test bed verification, including the 3D printing architecture product commercialization and convergent performance material and equipment deployment.
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