논문 상세보기

목재를 이용한 단층 지오데식 돔의 불안정 거동과 임계좌굴하중 KCI 등재

Unstable Behavior and Critical Buckling Load of a Single-Layer Dome using the Timber Elements

  • 언어KOR
  • URLhttps://db.koreascholar.com/Article/Detail/421799
구독 기관 인증 시 무료 이용이 가능합니다. 4,000원
한국공간구조학회지 (JOURNAL OF THE KOREAN ASSOCIATION FOR AND SPATIAL STRUCTURES)
한국공간구조학회 (Korean Association for Spatial Structures)
초록

Timber structures are susceptible to moisture, contamination, and pest infestation, which can compromise their integrity and pose a significant fire hazard. Despite these drawbacks, timber's lightweight properties, eco-friendliness, and alignment with current architectural trends emphasizing sustainability make it an attractive option for construction. Moreover, timber structures offer economic benefits and provide a natural aesthetic that regulates building temperature and humidity. In recent years, timber domes have gained popularity due to their high recyclability, lightness, and improved fire resistance. Researchers are exploring hybrid timber and steel domes to enhance stability and rigidity. However, shallow dome structures still face challenges related to structural instability. This study investigates stability problems associated with timber domes, the behavior of timber and steel hybrid domes, and the impact of timber member positioning on dome stability and critical load levels. The paper analyzes unstable buckling in single-layer lattice domes using an incremental analysis method. The critical buckling load of the domes is examined based on the arrangement of timber members in the inclined and horizontal directions. The analysis shows that nodal snapping is observed in the case of a concentrated load, whereas snap-back is also observed in the case of a uniform load. Furthermore, the use of inclined timber and horizontal steel members in the lattice dome design provides adequate stability.

목차
Abstract
1. 서론
2. 육각형 단위 목재 모델의 불안정성
3. 목재 지오데식 돔 모델
    3.1 초기 입력 데이터
    3.2 부재의 물성치
4. 목재 돔의 불안정 현상과 좌굴하중
    4.1 Case 1의 불안정 현상과 좌굴하중
    4.2 Case 2의 불안정 현상과 좌굴하중
5. 결론
감사의 글
References
저자
  • 홍석호(한국기술교육대 건축공학과, 석사과정) | Hong Seok-Ho (Dept. of Architectural Eng, Koreatech Univ.)
  • 하현주(한국기술교육대 건축공학과, 석사과정) | Ha Hyeonju (Dept. of Architectural Eng, Koreatech Univ.)
  • 손수덕(한국기술교육대 건축공학과, 대우교수, 공학박사) | Shon Sudeok (Dept. of Architectural Eng, Koreatech Univ.) Corresponding author
  • 이승재(한국기술교육대 건축공학과, 교수) | Lee Seungjae (Dept. of Architectural Eng, Koreatech Univ.)