Influence of load-level and effective thickness on the fire resistance of composite slabs with steel deck

Q4 Chemical Engineering Applied and Computational Mechanics Pub Date : 2021-06-01 DOI:10.22059/JCAMECH.2021.316155.583
L. Santos, P. Piloto, Carlos Balsa, Erica A. Kimura
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Abstract

Composite slabs with steel deck have been used on building construction due to its fast-and-easy crafting that brings economic outstanding alternatives to architects and engineers on large-scale steel framed constructions. At room temperatures and in Europe, the designing procedures of composite slabs are defined by Eurocode 1994-1-1. When it comes to the fire safety analysis of these elements, the designing procedure requires more attention due to the direct exposition of the steel deck to fire, affecting the overall bending resistance. This importance is presented in Eurocode 1994-1-2, taking in consideration the integrity, insulation and load-bearing criteria. In this work the thermal and mechanical behaviour of composite slabs with steel deck exposed to standard fire ISO 834 are studied through numerical simulations using Finite-Element Method (FEM). The model was previously validated with one experimental test from literature. The ANSYS Mechanical APDL software was used to develop a parametric study, simulating four different geometries with different load levels, comprehending a total of 126 thermal and mechanical simulations used to determine the correlation between load-level and fire resistance. As result, a new simplified method is proposed for the load bearing fire resistance of composite slabs, considering the effect of the effective thickness and the load level. The fire resistance decreases with the load level and increases with the thickness of the concrete. A new proposal is presented to determine the fire resistance, based on these two parameters.
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荷载水平和有效厚度对钢板组合楼板耐火性能的影响
由于其快速简便的工艺,为建筑师和工程师在大型钢框架结构上提供了经济出色的替代方案,因此钢甲板复合板已用于建筑施工。在室温和欧洲,复合楼板的设计程序由欧洲规范1994-1-1规定。当涉及到这些元素的消防安全分析时,由于钢甲板直接暴露在火灾中,影响整体抗弯能力,因此设计过程需要更多的关注。考虑到完整性、绝缘和承重标准,欧洲规范1994-1-2中提出了这种重要性。在这项工作中,通过有限元法(FEM)的数值模拟,研究了钢甲板复合板暴露于ISO 834标准火下的热力学行为。该模型先前通过文献中的一个实验测试进行了验证。利用ANSYS Mechanical APDL软件进行参数化研究,模拟了四种不同载荷水平下的不同几何形状,共进行了126次热力学模拟,以确定载荷水平与耐火性之间的相关性。在此基础上,考虑了有效厚度和荷载水平的影响,提出了一种新的复合板承载耐火性能的简化计算方法。耐火性能随荷载水平的增大而减小,随混凝土厚度的增大而增大。提出了一种基于这两个参数确定耐火性能的新方法。
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来源期刊
Applied and Computational Mechanics
Applied and Computational Mechanics Engineering-Computational Mechanics
CiteScore
0.80
自引率
0.00%
发文量
10
审稿时长
14 weeks
期刊介绍: The ACM journal covers a broad spectrum of topics in all fields of applied and computational mechanics with special emphasis on mathematical modelling and numerical simulations with experimental support, if relevant. Our audience is the international scientific community, academics as well as engineers interested in such disciplines. Original research papers falling into the following areas are considered for possible publication: solid mechanics, mechanics of materials, thermodynamics, biomechanics and mechanobiology, fluid-structure interaction, dynamics of multibody systems, mechatronics, vibrations and waves, reliability and durability of structures, structural damage and fracture mechanics, heterogenous media and multiscale problems, structural mechanics, experimental methods in mechanics. This list is neither exhaustive nor fixed.
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