메뉴 건너뛰기
Library Notice
Institutional Access
If you certify, you can access the articles for free.
Check out your institutions.
ex)Hankuk University, Nuri Motors
Log in Register Help KOR
Subject

유한요소 모델을 이용한 WUF-W 모멘트 접합부의 회전성능평가
Recommendations
Search
Questions

논문 기본 정보

Type
Academic journal
Author
Lee, Jin-Yeong (한양대) Moon, Ki-Hoon (한양대) Han, Sang-Whan (한양대)
Journal
ARCHITECTURAL INSTITUTE OF KOREA JOURNAL OF THE ARCHITECTURAL INSTITUTE OF KOREA Structure & Construction Vol.28No.1 KCI Excellent Accredited Journal
Published
2012.1
Pages
51 - 58 (8page)

Usage

cover
📌
Topic
📖
Background
🔬
Method
🏆
Result
유한요소 모델을 이용한 WUF-W 모멘트 접합부의 회전성능평가
Ask AI
Recommendations
Search
Questions

Research history (2)

  • Are you curious about the follow-up research of this article?
  • You can check more advanced research results through related academic papers or academic presentations.
  • Check the research history of this article

Abstract· Keywords

Report Errors
The objective of a 3D finite-element study is to evaluate the rotation performance of Welded Unreinforced Flange-Welded web moment(WUF-W) connections for SMF System designed according to requirements of the current seismic codes. The analysis models using the general-purpose computer program ABAQUS are based on the exterior connection test results and conducted nonlinear analysis with the same boundary conditions and load protocol. The main variables of the analysis model were beam depth and slope of the weld access hole. The analytical results provided information on basic performance and the effects of these parameters using stress and strain indices. Based on the results of the analytical study, analysis models developed configuration of access-hole showed improved ductility capacity at critical location of moment connections.

Contents

Abstract
1. 서론
2. 선행 실험
3. 유한요소 해석
4. 해석 결과
5. 결론
참고문헌

References (14)

Add References

Related Authors

Frequently Viewed Together

Recently viewed articles

Comments(0)

0

Write first comments.

UCI(KEPA) : I410-ECN-0101-2013-540-001229554