Simulation of bolted connections under fire: optimization and model validation

IF 0.9 Q4 CONSTRUCTION & BUILDING TECHNOLOGY
H. Saglik, Airong Chen, R. Ma
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引用次数: 0

Abstract

PurposeBeginners and even experienced ones have difficulties in completing the structural fire analysis due to numerical difficulties such as convergence errors and singularity and have to spend a lot of time making many repetitive changes on the model. The aim of this article is to highlight the advantages of explicit solver which can eliminate the mentioned difficulties in finite element analysis containing highly nonlinear contacts, clearance between modeled parts at the beginning and large deflections because of high temperature. This article provides important information, especially for researchers and engineers who are new to structural fire analysis.Design/methodology/approachThe finite element method is utilized to achieve mentioned purposes. First, a comparative study is conducted between implicit and explicit solvers by using Abaqus. Then, a validation process is carried out to illustrate the explicit process by using sequentially coupled heat transfer and structural analysis.FindingsExplicit analysis offers an easier solution than implicit analysis for modeling multi-bolted connections under high temperatures. An optimum mesh density for bolted connections is presented to reflect the realistic structural behavior. Presented explicit process with the offered mesh density is used in the validation of an experimental study on multi-bolted splice connection under ISO 834 standard fire curve. A good agreement is achieved.Originality/valueWhat makes the study valuable is that the points to be considered in the structural fire analysis are examined and it is a guide that future researchers can benefit from. This is especially true for modeling and analysis of multi-bolted connections in finite element software under high temperatures. The article can help to shorten and even eliminate the iterative debugging phases, which is a problematic and very time-consuming process for many researchers.
火灾下螺栓连接的模拟:优化和模型验证
由于收敛误差和奇异性等数值困难,初学者甚至有经验的人在完成结构火灾分析时都存在困难,并且需要花费大量时间对模型进行多次重复修改。本文的目的是强调显式求解器的优点,它可以消除上述困难在有限元分析中包含高度非线性接触,模型零件之间的间隙在开始和大挠度由于高温。本文提供了重要的信息,特别是对研究人员和工程师谁是新的结构火灾分析。设计/方法学/方法采用有限元法来达到上述目的。首先,利用Abaqus对隐式求解和显式求解进行了比较研究。然后,通过顺序耦合传热和结构分析对显式过程进行验证。对于高温下多螺栓连接的建模,显式分析提供了比隐式分析更简单的解决方案。提出了反映实际结构性能的螺栓连接的最佳网格密度。在iso834标准火焰曲线下,用给出的网格密度给出的显式过程验证了多螺栓拼接连接的实验研究。达成了很好的协议。独创性/价值本研究的价值在于对结构火灾分析中需要考虑的要点进行了检验,为今后的研究人员提供了有益的指导。这对于高温下有限元软件中多螺栓连接的建模和分析尤其适用。本文可以帮助缩短甚至消除迭代调试阶段,这对许多研究人员来说是一个有问题且非常耗时的过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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