Finite element analysis of lateral response of lightweight foamed concrete-filled cold-formed steel walls

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
G. Alabbadi, Rabab Allouzi
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Abstract

PurposeThe purpose of this study is to improve the lateral capacity of Cold-Formed Steel (CFS) frame walls filled with lightweight foamed concrete (LFC) and supported with straw boards by introducing structural foamed concrete and/or bracing.Design/methodology/approachFinite element models are developed and calibrated based on previous experimental work. Then, these models are extended to conduct a parametric study to quantify the effect of filling CFS walls and structural LFC and the effect of supporting CFS walls with bracing.FindingsResults of the study conclude that the finite element analysis can be used to simulate and analyze the lateral capacity of CFS walls effectively since the maximum deviation between calibrated and experimental results is 10%. The structural LFC usage in CFS walls improves the lateral capacity considerably by (25–75) % depending on the wall properties. Besides, the application of lateral bracing does not always have a positive effect on the lateral performance of these walls.Originality/valueAlthough CFS walls are preferred due to it is light in weight, low in cost, easy to install and recyclable, low seismic performance, buckling vulnerability, poor thermal insulation and sound insulation properties, low lateral stiffness, and low shear strength limit their use. This study proposes the use of structural foamed concrete and a different bracing method than what is available in the literature. This can overcome the drawbacks of the CFS walls alone which can permit the usage of such walls in mid-rise buildings and other applications.
轻质泡沫混凝土冷弯型钢墙体横向响应的有限元分析
目的本研究的目的是通过引入结构泡沫混凝土和/或支撑,提高以轻质泡沫混凝土填充并以稻草板支撑的冷弯型钢框架墙的横向承载力。设计/方法/方法有限元模型是在先前实验工作的基础上开发和校准的。然后,对这些模型进行扩展,进行参数化研究,量化填充CFS墙体和结构LFC的影响以及支撑支撑CFS墙体的影响。研究结果表明,由于标定结果与实验结果的最大偏差为10%,因此有限元分析可以有效地模拟和分析CFS墙体的侧向承载力。在CFS墙体中使用结构LFC可显著提高(25 - 75%)%的侧向承载力,具体取决于墙体性能。此外,侧向支撑的应用并不总是对这些墙的侧向性能产生积极的影响。原创性/价值尽管CFS墙体因其重量轻、成本低、易于安装和可回收而成为首选,但其抗震性能低、易屈曲、隔热和隔音性能差、侧向刚度低、抗剪强度低等限制了其使用。本研究提出使用结构泡沫混凝土和不同的支撑方法比什么是在文献中可用。这可以克服单独的CFS墙的缺点,可以允许在中层建筑和其他应用中使用这种墙。
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来源期刊
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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