Steel and Composite Structures
Volume 19, Number 6, 2015, pages 1483-1499
DOI: 10.12989/scs.2015.19.6.1483
Ultimate strength of long-span buildings with P.E.B (Pre-Engineered Building) system
Seong-Hui Lee, Young-Ho Kim and Sung-Mo Choi
Abstract
With the improvement of the quality of construction materials and the development of construction technologies, large-scale long-span steel frame buildings have been built recently. The P.E.B system using tapered members is being employed as an economically-efficient long-span structure owing to its advantage of being able to distribute stress appropriately depending on the size of sectional areas of members. However, in December 2005 and in February 2014, P.E.B buildings collapsed due to sudden loads such as snow loads and wind gusts. In this study, the design and construction of the P.E.B system in Korea were analyzed and its structural safety was evaluated using the finite element analysis program to suggest how to improve the P.E.B system in order to promote the efficient and rational application of the system.
Key Words
P.E.B. (Pre-Engineered Metal Building) system; tapered deep beam; lateral-torsional buckling; local buckling; ductile design
Address
(1) Seong-Hui Lee:
Office Equipment Examination Division, Patent Examination Bureau I, Korean Intellectual Property Office, Gov. Complex Daejeon Bldg. 4, 189, Cheongsa-ro, Seo-gu, Daejeon, 35208, Korea;
(2) Young-Ho Kim:
Institute of R&D, Jiseung Consultant Co., Ltd., 55, Bongeunsa-ro 7-gil Gangnam-gu Seoul, 06128, Korea;
(3) Sung-Mo Choi:
School of Architectural Engineering, University of Seoul, 163, seoulsiripdae-ro, Dongdaemun-gu, Seoul, 02504, Korea.