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Urban Infrastructure Engineering 분야는 인류의 지속가능한 번영과 생존에 관한 필연적인 사회적 요구에 응답할 책임을 가지고 있습니다. UNIST의 Sustainable Structural Systems and Materials Lab은 이러한 신성한 사명을 다하기 위해서, 도시의 지속가능한 발전과 극심한 복합재난에 복원력을 갖춘 도시기반시설 기술에 대한 연구와 혁신에 전념하고 있습니다.
* 중점 연구 주제 (1) 도시기반시설의 내진설계, 모델링 및 성능평가 기술 (2) 복합재난에 대한 초고층빌딩의 설계최적화 (3) 고성능 친환경 건설재료 (예: 섬유보강 시멘트 복합체, 유황 복합체, 자기치유 콘크리트) (4) 표면파, 확산초음파, 비선형파 등을 활용한 초음파 비파괴평가 기술
The field of Urban Infrastructure Engineering is a profession that has the responsibility to confront desperate social needs toward the mankind’s longevity. With the divine mission to meet the needs, the Sustainable Structural Systems and Materials Lab in UNIST is dedicated to research and innovation on the sustainable development of urban infrastructure and the resilient protection of built environment against extreme multi-hazards. Prof. Shin's research interests are well aligned with the mission of the laboratory, and can be categorized into the following four areas: (1) earthquake-resistant design, modeling, and assessment of civil infrastructures, (2) design optimization of tall buildings subjected to extreme multi-hazards, (3) high performance eco-friendly construction materials (e.g., fiber-reinforced cement composites, sulfur composites, self-healing cementitious materials, and recycled aggregate concrete), and (4) non-destructive evaluation technologies based on ultrasound such as surface, diffuse, and nonlinear waves.
Major research field
내진 설계 및 성능 평가, 고층 빌딩, 고성능 복합재, 초음파 비파괴 평가 기술
Desired field of research
Research Keywords and Topics
· 토목 인프라의 내진 설계, 모델링 및 평가
Earthquake-resistant design, modeling, and assessment of civil infrastructures
· 다중 위험에 노출 된 고층 빌딩 구조 시스템의 설계 최적화
Design optimization of tall building structural systems subjected to multi-hazards
· 고성능 친환경 소재 (예 : 섬유 강화,자가 치유, 황 복합재, 재활용 골재)
High performance eco-friendly materials (e.g. fiber-reinforced, self-healing, sulfur composites, recycled aggregate)
· 콘크리트 구조물의 비파괴 성능 평가 기술
Non-destructive performance evaluation technologies for concrete structures
Research Publications
MORE· CONSTRUCTION AND BUILDING MATERIALS / Water permeability and rapid self-healing of sustainable sulfur composites using superabsorbent polymer and binary cement / Gwon, Seongwoo; Ahn, Eunjong; Shin, Myoungsu / 2020-12
· CONSTRUCTION AND BUILDING MATERIALS / Rheological properties of modified sulfur polymer composites containing cement-fly ash blend at different temperatures / Gwon, Seongwoo; Shin, Myoungsu/ 2019-12
· CEMENT AND CONCRETE RESEARCH / Effectiveness of diffuse ultrasound for evaluation of micro-cracking damage in concrete/ Ahn, Eunjong; Shin, Myoungsu; Popovics, John S.; Weaver, Richard L. / 2019-10
Patents
· 자기치유형 유황 복합재 / 신명수; 이광명; 권성우 / 2019-08
· 폐고무분말을 이용한 경량 유황콘크리트 및 고강도 경량 유황콘크리트 / 신명수; 권성우 / 2017-02
국가과학기술표준분류
- EI. 건설/교통
- EI11. 시설물안전·유지관리기술
- EI1105. 자연재해 저감기술