Influence of Foam Content and Concentration on the Physical and Mechanical Properties of Foam Concrete

Q1 Mathematics
Sukanta Kumer Shill, Estela Oliari Garcez, Safat Al-Deen, Mahbube Subhani
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引用次数: 0

Abstract

Foam concrete has been used in various real-life applications for decades. Simple manufacturing methods, lightweight, high flowability, easy transportability, and low cost make it a useful construction material. This study aims to develop foam concrete mixtures for various civil and geotechnical engineering applications, such as in-fill, wall backfill and soil replacement work. A blended binder mix containing cement, fly ash and silica fume was produced for this study. Its compressive strength performance was compared against conventional general purpose (GP) cement-based foam concrete. Polypropylene (PP) fibre was used for both mixtures and the effect of various percentages of foam content on the compressive strength was thoroughly investigated. Additionally, two types of foaming agents were used to examine their impact on density, strength and setting time. One foaming agent was conventional, whereas the second foaming agent type can be used to manufacture permeable foam concrete. Results indicate that an increase in foam content significantly decreases the strength; however, this reduction is higher in GP mixes than in blended mixes. Nevertheless, the GP mixes attained two times higher compressive strength than the blended mix’s compressive strengths at any foam content. It was also found that the foaming agent associated with creating permeable foam concrete lost its strength (reduced by more than half), even though the density is comparable. The compressive stress–deformation behaviour showed that densification occurs in foam concrete due to its low density, and fibres contributed significantly to crack bridging. These two effects resulted in a long plateau in the compressive stress–strain behaviour of the fibre-reinforced foam concrete.
泡沫含量和浓度对泡沫混凝土物理和机械性能的影响
数十年来,泡沫混凝土在现实生活中得到了广泛应用。简单的制造方法、轻质、高流动性、易运输和低成本使其成为一种有用的建筑材料。本研究旨在开发适用于各种土木和岩土工程应用的泡沫混凝土混合物,如内部填充、墙体回填和土壤置换工程。本研究采用了含有水泥、粉煤灰和硅灰的混合粘结剂。其抗压强度性能与传统的通用(GP)水泥基泡沫混凝土进行了比较。两种混合物都使用了聚丙烯(PP)纤维,并深入研究了泡沫含量的不同百分比对抗压强度的影响。此外,还使用了两种发泡剂来研究它们对密度、强度和凝结时间的影响。其中一种发泡剂是传统的,而第二种发泡剂可用于制造透水泡沫混凝土。结果表明,泡沫含量的增加会明显降低强度;然而,GP 混合物的强度降低幅度要高于混合混合物。尽管如此,无论泡沫含量多少,GP 混合物的抗压强度都比混合混合物的抗压强度高出两倍。研究还发现,尽管密度相当,但与制造透水泡沫混凝土相关的发泡剂却失去了强度(降低了一半以上)。压缩应力-变形行为表明,泡沫混凝土由于密度低而发生致密化,纤维对裂缝桥接起着重要作用。这两种效应导致纤维增强泡沫混凝土的抗压应力-应变行为长期处于高原状态。
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
Applied Sciences
Applied Sciences Mathematics-Applied Mathematics
CiteScore
6.40
自引率
0.00%
发文量
0
审稿时长
11 weeks
期刊介绍: APPS is an international journal. APPS covers a wide spectrum of pure and applied mathematics in science and technology, promoting especially papers presented at Carpato-Balkan meetings. The Editorial Board of APPS takes a very active role in selecting and refereeing papers, ensuring the best quality of contemporary mathematics and its applications. APPS is abstracted in Zentralblatt für Mathematik. The APPS journal uses Double blind peer review.
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