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Architecture & Urban Research Institute

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³í¹®¸í À¯ÇÑ¿ä¼ÒÇؼ®¿¡ ±â¹ÝÇÑ ±¹³» °íÃþ¾ÆÆÄÆ® TÇü º®Ã¼ÀÇ È¾º¸°­ ¿µ¿ª »êÁ¤¹æ¹ýÀÇ ÀûÇÕ¼º Æò°¡ / Suitability Evaluation of Design Methods for Lateral Confinement Region of T-Shaped Walls Based on Finite Element Analysis
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¼ö·Ï»çÇ× Çѱ¹ÁöÁø°øÇÐȸ ³í¹®Áý, Vol.28 No.6(Åë±Ç 162È£) (2024-11)
ÆäÀÌÁö ½ÃÀÛÆäÀÌÁö(355) ÃÑÆäÀÌÁö(10)
ISSN 1226-525X
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ÁÖÁ¦¾î ; T-shaped walls; Lateral confinement region; Finite element analysis; Prefabricated rectangular continuous hoop (PRCH)
¿ä¾à2 Recently, high-rise residential buildings in Korea have adopted slender shear walls with irregular section shapes, such as T-shape, H-shape, and C-shape. In the seismic design of the slender shear walls, the transverse reinforcement for lateral confinement should be provided in the boundary elements to increase deformation capacity and subsequent ductility. However, in practice, the irregularity of the shear walls is not adequately considered, and the lateral confinement region is calculated for the rectangular wall segments. This study investigated the proper design method for lateral confinement regions using finite element analysis. The lateral confinement region was considered in analysis for two cases: 1) as a typical rectangular wall segment and 2) as an irregular wall. When the irregularity of the walls was considered, the compression zone depth was increased because the vertical reinforcement in the flange was addressed. The effect of lateral confinement design methods on the structural performance of the walls was directly compared under various design parameters, including the length of the flange, concrete compressive strength, vertical rebar layout, axial load ratio, and loading direction. According to the results of the parametric analysis, the peak strength and deformation capacity could be significantly increased when the lateral confinement region was calculated based on irregularly shaped walls, regardless of the design parameters. In addition, the effective compression zone was located within the lateral confinement region. Thus, it is recommended that the lateral confinement region of T-shaped walls is calculated by addressing the irregularity of the walls.
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DOI https://doi.org/10.5000/EESK.2024.28.6.355