Performance of steel-plate shear wall at high temperature

IF 0.9 Q4 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Structural Fire Engineering Pub Date : 2020-08-31 DOI:10.1108/jsfe-02-2020-0005
M. Jamshidi, Heydar Dashti NaserAbadi, M. Oliaei
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引用次数: 4

Abstract

The high heat induced by fire can substantially decrease the load-bearing capacity, which is more critical in unprotected steel structures than concrete reinforced structures. One of the conventional steel structures is a steel-plate shear wall (SPSW) in which thin infill steel plates are used to resist against the lateral loads. Due to the small thickness of infill plates, high heat seems to dramatically influence the lateral load-bearing capacity of this type of structures. Therefore, this study aims to provide an investigation into the performance of SPSW with reduced beam section at high temperature.,In the present paper, to examine the seismic performance of SPSW at high temperature, 48 single-span single-story steel frames equipped with steel plates with the thicknesses of 2.64 mm, 5 mm and 7 mm and yield stresses of 85 MPa, 165 MPa, 256 MPa and 300 MPa were numerically modeled. Furthermore, their behavioral indices, namely, strength, stiffness, ductility and hysteresis behavior, were studied at the temperatures of 20, 458, 642 and 917? The simulated models in the present paper are based on the experimental specimen presented by Vian and Bruneau (2004).,The obtained results revealed that the high heat harshly diminishes the seismic performance of SPSW so that the lateral strength is reduced even by 95% at substantially high temperatures. Therefore, SPSW starts losing its strength and stiffness at high temperature such that it completely loses its capacity of strength, stiffness and energy dissipation at the temperature of 917? Moreover, it was proved that by separating the percentage of their participations variations of the infill plate in SPSW, their behavior and the bare frame can be examined even at high temperatures.,To the best of the authors’ knowledge, the seismic performance of SPSW at different temperatures has not been evaluated and compared yet.
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高温下钢板剪力墙的性能研究
火灾产生的高热量会大大降低钢结构的承载能力,这在无保护钢结构中比在钢筋混凝土结构中更为严重。传统的钢结构之一是钢板剪力墙(SPSW),其中使用薄填充钢板来抵抗侧向荷载。由于填充板厚度小,高热量似乎对这类结构的横向承载能力有显著影响。因此,本研究旨在研究减小梁截面的SPSW在高温下的性能。为研究SPSW在高温下的抗震性能,对48个单跨单层钢框架进行了数值模拟,框架的钢板厚度分别为2.64 mm、5 mm和7 mm,屈服应力分别为85 MPa、165 MPa、256 MPa和300 MPa。在20、458、642和917℃温度下,研究了它们的强度、刚度、延性和迟滞性能指标。本文的模拟模型是基于Vian和Bruneau(2004)提出的实验样本。结果表明,高温严重降低了SPSW的抗震性能,在相当高的温度下,SPSW的侧向强度甚至降低了95%。因此,SPSW在高温下开始失去强度和刚度,在917℃时完全失去了强度、刚度和耗能能力。此外,通过分离其在SPSW中填充板的参与百分比变化,可以研究其在高温下与裸框架的行为。据作者所知,目前还没有对SPSW在不同温度下的抗震性能进行评价和比较。
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来源期刊
Journal of Structural Fire Engineering
Journal of Structural Fire Engineering CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
2.20
自引率
10.00%
发文量
28
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