Influence of elevated temperature on compressive strength of LD slag aggregate concrete

IF 0.9 Q4 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Structural Fire Engineering Pub Date : 2023-06-14 DOI:10.1108/jsfe-08-2022-0028
P. Singh, B. Prasad, Virendra Kumar
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Abstract

PurposeThis study aims to investigate the compressive strength of concretes incorporating Linz-Donawitz slag (LD slag) as partial replacement for natural fine and coarse aggregates and compare them with traditional concrete.Design/methodology/approachThe natural fine and coarse aggregates were replaced by weight simultaneously up to 100% with LD slag aggregates at an incremental increase of 20%. Concrete of grades M20, M25, M30, M35 and M40 were cast, cured and tested with standard cube specimens to study the density and compressive strength of reference and LD slag aggregate concretes (LDSACs). The concrete specimens were exposed to elevated temperatures, i.e. 100 to 900 °C at an equal interval of 100 °C and tested to study the variation in density and residual compressive strength.FindingsThe results from the experiments reveal that the LDSAC yields a higher density than that of the reference concrete and also undergo less density variation when exposed to elevated temperatures. In addition, the residual compressive strength of LDSAC specimens was significantly higher than that of the reference concrete.Research limitations/implicationsLD slag is believed to be stronger and more durable than locally available limestone aggregates or blast furnace slag. Moreover, it is necessary to study its strength and other properties to determine whether it can be successfully used as an aggregate in concrete universally.Practical implicationsUse of LD slag as aggregates in concrete will convert LD slag into a value added product and as an alternative to the existing natural aggregates which will help in maintaining ecological balance and save valuable lands.Social implicationsThe economically weaker section of the society may now use LDSAC as waste utilization will bring down the overall cost and hence it will benefit people on large scale.Originality/valueUse of LD slag as aggregate in concrete can help find an alternative to the existing natural aggregates which will save the ecosystem and at the same time help in reducing the industrial waste on a large scale.
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高温对LD矿渣骨料混凝土抗压强度的影响
目的研究采用LD渣部分替代天然细、粗骨料的混凝土抗压强度,并与传统混凝土进行比较。设计/方法/方法:将天然细、粗骨料同时以重量100%替换为LD矿渣骨料,增量增加20%。对M20、M25、M30、M35、M40等标号混凝土进行浇筑、养护和标准立方体试件试验,研究了基准混凝土和LD矿渣骨料混凝土(ldsac)的密度和抗压强度。将混凝土试件以100℃为间隔,在100 ~ 900℃的高温下进行试验,研究其密度和残余抗压强度的变化。实验结果表明,LDSAC比参考混凝土产生更高的密度,并且在高温下密度变化较小。此外,LDSAC试件的残余抗压强度显著高于参考混凝土。研究的局限/影响:人们认为,矿渣比当地可用的石灰石骨料或高炉矿渣更坚固,更耐用。此外,有必要对其强度等性能进行研究,以确定其是否能成功地作为骨料普遍应用于混凝土中。实际意义将矿渣用作混凝土骨料,可将矿渣转化为一种增值产品,并可作为现有天然骨料的替代品,有助维持生态平衡及节省宝贵土地。对社会的影响社会上经济较弱的阶层现在可能会使用LDSAC,因为废物的利用可以降低整体成本,从而使人们大规模受益。原创性/价值使用LD矿渣作为混凝土骨料可以帮助找到现有天然骨料的替代品,这将拯救生态系统,同时有助于大规模减少工业废物。
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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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