Fracture energy of fiber-reinforced and rubberized cement-based composites: A sustainable approach towards recycling of waste scrap tires

IF 4 4区环境科学与生态学 Q2 ENVIRONMENTAL STUDIES

Energy & Environment Pub Date : 2022-03-27 DOI:10.1177/0958305X221089223

S. Asad, Ali Gillani, M. R. Riaz, R. Hameed, A. Qamar, A. Toumi, A. Turatsinze

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引用次数: 2

Abstract

Using crumb rubber particles obtained from end-of-life tires as aggregate in concrete can reduce the environmental overburden caused by the huge accumulation of these scrap tires. However, reduction in the mechanical properties of concrete is observed with the incorporation of rubber aggregates. To counter this detrimental effect of crumb rubber in concrete, amorphous metallic fibers are added to balance the loss in strength and durability issues. Mechanical characteristics along with the fracture energy of rubberized fiber-reinforced mortar are presented here. Four mortar mix compositions were investigated; the first one is reference mortar (control mortar), the second mix containing 30 kg/m3 of metallic fibers, the third mix containing 30% of rubber aggregates as replacement of sand by equivalent volume and fourth containing both rubber aggregates and metallic fibers with the dosage 30% and 30 kg/m3, respectively. Compression tests, modulus of elasticity and direct tension tests were conducted for mechanical characterization. Deformation capacity, residual post-cracking strength and fracture energy of these composite mortar mixes were evaluated through uniaxial direct tension tests. The fracture energy was determined from the obtained complete softening curves. Test results show a reduction in mechanical properties with the incorporation of crumb rubber as aggregates in mortar. However, a significant increase in fracture energy was observed in rubberized fiber-reinforced mortar mixes. Moreover, the mortar mixes containing both rubber aggregates and metallic fibers show positive synergetic effect resulting in enhanced post-cracking residual tensile strength, strain capacity and energy dissipation capacity.

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纤维增强和橡胶水泥基复合材料的断裂能:废轮胎回收的可持续方法

使用废旧轮胎的橡胶颗粒作为混凝土的骨料，可以减少这些废旧轮胎的大量堆积所造成的环境覆盖。然而，橡胶集料掺入后，混凝土的力学性能下降。为了对抗混凝土中橡胶屑的这种有害影响，加入无定形金属纤维来平衡强度和耐久性问题的损失。给出了橡胶纤维增强砂浆的力学特性及断裂能。研究了四种砂浆配合比;第一种是参考砂浆(对照砂浆)，第二种是含有30 kg/m3金属纤维的混合料，第三种是含有30%橡胶骨料的混合料，以等量代替沙子，第四种是橡胶骨料和金属纤维，用量分别为30%和30 kg/m3。进行了压缩试验、弹性模量试验和直接拉伸试验进行力学表征。通过单轴直拉试验，评价了复合砂浆的变形能力、开裂后残余强度和断裂能。根据得到的完整软化曲线确定断裂能。试验结果表明，在砂浆中掺入橡胶屑作为集料会降低其力学性能。然而，在橡胶纤维增强砂浆混合料中观察到断裂能显著增加。同时含有橡胶骨料和金属纤维的砂浆具有良好的协同作用，提高了砂浆的开裂后残余抗拉强度、应变能力和耗能能力。

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

Energy & Environment ENVIRONMENTAL STUDIES-

CiteScore

7.60

自引率

7.10%

发文量

157

期刊介绍： Energy & Environment is an interdisciplinary journal inviting energy policy analysts, natural scientists and engineers, as well as lawyers and economists to contribute to mutual understanding and learning, believing that better communication between experts will enhance the quality of policy, advance social well-being and help to reduce conflict. The journal encourages dialogue between the social sciences as energy demand and supply are observed and analysed with reference to politics of policy-making and implementation. The rapidly evolving social and environmental impacts of energy supply, transport, production and use at all levels require contribution from many disciplines if policy is to be effective. In particular E & E invite contributions from the study of policy delivery, ultimately more important than policy formation. The geopolitics of energy are also important, as are the impacts of environmental regulations and advancing technologies on national and local politics, and even global energy politics. Energy & Environment is a forum for constructive, professional information sharing, as well as debate across disciplines and professions, including the financial sector. Mathematical articles are outside the scope of Energy & Environment. The broader policy implications of submitted research should be addressed and environmental implications, not just emission quantities, be discussed with reference to scientific assumptions. This applies especially to technical papers based on arguments suggested by other disciplines, funding bodies or directly by policy-makers.