不同混凝土在火灾荷载作用下填充钢空心柱中的应用综述

IF 0.9 Q4 CONSTRUCTION & BUILDING TECHNOLOGY

Journal of Structural Fire Engineering Pub Date : 2021-02-01 DOI:10.1108/JSFE-05-2020-0017

N. Zuhan, M. A. Kadir, Muhammad Najmi Mohamad Ali Mastor, S. P. Ngian, A. M. Sam

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引用次数: 0

摘要

目的钢管混凝土（CFHS）柱是提高混凝土或钢柱性能的一种创新。与没有填充物的空心钢柱相比，它被认为具有高抗压强度、良好的塑性以及优异的抗震和防火性能。设计/方法/方法已经进行了实验和数值研究，以研究具有不同填充混凝土和钢管形状的CFHS的性能。发现本文对不同类型混凝土作为填充材料在高温下对CFHS柱进行的试验进行了广泛的综述。研究人员使用了三种不同类型的混凝土填料，如普通混凝土（NC）、钢筋混凝土和火山灰粉煤灰混凝土（FC）。大量研究对使用再生骨料在高温下浇注NC的性能进行了实验研究。并提出了研究差距和建议。这篇综述将为通过应用填充材料对钢柱进行创新提供基本信息。研究局限性/含义本文未考虑设计指南。实用意义耐火性是结构防火设计中的一个重要问题。这可以作为定义不同类型混凝土填料在不同暴露条件下的CFHS性能的指南。社会影响废弃粉煤灰的使用减少了混凝土生产中传统水泥（普通硅酸盐水泥）的使用，并提高了其在高温下的性能。采用FC的CFHS柱的新创新可以降低混凝土生产成本，同时通过最大限度地减少处理面积来缓解废料造成的环境问题。独创性/价值审查CFHS栏中不同类型的混凝土填料。并提出了研究差距和建议。

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A review on utilization of different concretes as in-filled steel hollow column subjected to fire loading

Purpose Concrete-filled steel hollow (CFHS) column is an innovation to improve the performance of concrete or steel column. It is believed to have high compressive strength, good plasticity and is excellent for seismic and fire performance as compared to hollow steel column without a filler. Design/methodology/approach Experimental and numerical investigation has been carried out to study the performance of CFHS having different concrete in-fill and shape of steel tube. Findings In this paper, an extensive review of experiment performed on CFHS columns at elevated temperature is presented in different types of concrete as filling material. There are three different types of concrete filling used by the researchers, such as normal concrete (NC), reinforced concrete and pozzolanic-fly ash concrete (FC). A number of studies have conducted experimental investigation on the performance of NC casted using recycled aggregate at elevated temperature. The research gap and the recommendations are also proposed. This review will provide basic information on an innovation on steel column by application of in-filled materials. Research limitations/implications Design guideline is not considered in this paper. Practical implications Fire resistance is an important issue in the structural fire design. This can be a guideline to define the performance of the CFHS with different type of concrete filler at various exposures. Social implications Utilization of waste fly ash reduces usage of conventional cement (ordinary Portland cement) in concrete production and enhances its performance at elevated temperature. The new innovation in CFHS columns with FC can reduce the cost of concrete production and at the same time mitigate the environmental issue caused by waste material by minimizing the disposal area. Originality/value Review on the different types of concrete filler in the CFHS column. The research gap and the recommendations are also proposed.

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来源期刊

Journal of Structural Fire Engineering CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

2.20

自引率

10.00%

发文量