Mechanical properties, permeability and microstructure of concrete using construction and industrial waste

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY
Rachit Sharma
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引用次数: 4

Abstract

PurposeThe purpose of this research is to evaluate construction and industrial waste materials in concrete using different additives.Design/methodology/approachThe experimental study investigated the effect of waste foundry sand (WFS), waste glass (GW) as partial substituent to natural sand and addition of waste glass fibers (GFs) and silica fume (SF) in natural/construction waste aggregate concrete on mechanical properties, durability and microstructure using.FindingsThe results reveal significant strength enhancement on using two admixtures, the maximum increase in compressive strength was obtained on using 20% WFS and 0.75% GF for both natural (75% increment) and construction waste (72% increment) coarse aggregates. Using three admixtures simultaneously, the maximum enhancement in compressive strength was found for (WFS(20%) + GW(10%) + GF(0.75%)) for both natural aggregates (122% increment) and construction waste (114% increment) coarse aggregates as compared to control mix. The 28 days split tensile and flexural strength of natural/construction waste aggregate concrete improve with age appreciably for optimal contents of single, two or three admixtures and the maximum tensile and flexural strength increment was 135 and 97% for mix (WFS(20%) + GW(10%) + GF(0.75%)) with natural aggregates as compared to control mix. The microstructural analysis results indicate improved microstructure upon partial substitution of sand with WFS, GW and SF along with addition of waste GFs.Originality/valueThe use of construction and industrial waste as a substituent to natural aggregate/sand will provide far reaching benefits for the green construction and the environment at large.
使用建筑和工业废料的混凝土的力学性能、渗透性和微观结构
目的对建筑和工业废料在混凝土中添加不同的添加剂进行评价。设计/方法/方法实验研究调查了废铸造砂(WFS)、废玻璃(GW)作为天然砂的部分替代品,以及在天然/建筑垃圾骨料混凝土中添加废玻璃纤维(GFs)和硅灰(SF)对机械性能、耐久性和微观结构的影响。结果表明:两种掺合料的强度均有显著提高,天然粗骨料(增量75%)和建筑垃圾粗骨料(增量72%)的抗压强度在掺加20% WFS和0.75% GF时均有最大的提高。同时使用三种掺合料,与对照料相比,天然骨料(增加122%)和建筑垃圾粗骨料(增加114%)的抗压强度最大提高为(WFS(20%) + GW(10%) + GF(0.75%)。当掺量为单掺、双掺或三掺时,天然骨料/建筑垃圾骨料混凝土的28天劈裂抗拉和抗弯强度随龄期的增加而明显提高,其中掺天然骨料(WFS(20%) + GW(10%) + GF(0.75%))的抗拉和抗弯强度最大增幅分别为135和97%。细观结构分析结果表明,随着废细观结构的加入,WFS、GW和SF部分替代砂土后,细观结构得到改善。原创性/价值利用建筑及工业废料代替天然骨料/砂,对绿色建筑及整体环境都有深远的好处。
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来源期刊
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
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