Influence of Silica Fume on Mechanical Properties and Microhardness of Interfacial Transition Zone of Different Recycled Aggregate Concretes

IF 1.4 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
S. V. Patil, K. B. Rao, G. Nayak
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引用次数: 3

Abstract

Several countries have started using recycled aggregate as a partial replacement to natural aggregate in concrete. Recycled aggregate contains adhered mortar, which distinguishes it from the natural aggregate. In the present study, natural coarse aggregates were entirely replaced by two kinds of recycled coarse aggregates. The recycled aggregates obtained from the jaw crushing method were named recycled coarse aggregate-1 and the aggregates that were further processed by the ball milling method were named recycled coarse aggregate-2. The performance of control concrete and two kinds of recycled coarse aggregate concretes were studied experimentally with respect to mechanical properties. Results indicate that the processing method to obtain recycled coarse aggregates plays an important role in developing the required mechanical properties. The ball mill processed aggregates performed better than the jaw crushed aggregates in concrete. The performance was also assessed with respect to the microhardness of the interfacial transition zone around the surface of the aggregates. The presence of adhered mortar in recycled aggregate weakens it because of the presence of an old interfacial transition zone that affects the strength of concrete. The interfacial transition zone hardness at the aggregate-mortar interface is 53.94, 34.21, and 44.08 % of bulk concrete for control concrete, recycled coarse aggregate-1 concrete, and recycled coarse aggregate-2 concrete, respectively. The addition of silica fume improved the average microhardness, and the same was reflected in the mechanical properties of both the recycled coarse aggregate concretes. It is recommended to use ball mill processed recycled coarse aggregates as a complete replacement to natural coarse aggregates along with a 5 % addition of silica fume for better performance.
硅粉对不同再生骨料混凝土界面过渡区的力学性能和显微硬度的影响
一些国家已经开始使用再生骨料部分替代混凝土中的天然骨料。再生骨料含有粘结砂浆,这是它与天然骨料的区别。本研究采用两种再生粗集料完全替代天然粗集料。采用颚式破碎法得到的再生骨料命名为再生粗骨料-1,采用球磨法进一步处理的骨料命名为再生粗骨料-2。对对照混凝土和两种再生粗骨料混凝土的力学性能进行了试验研究。结果表明,再生粗集料的加工方法对提高所需的力学性能起着重要作用。球磨机加工集料在混凝土中的性能优于颚式破碎集料。性能也评估了关于团聚体表面周围的界面过渡区的显微硬度。再生骨料中粘结砂浆的存在削弱了再生骨料,因为旧界面过渡区的存在影响了混凝土的强度。对照混凝土、再生粗集料1级混凝土和再生粗集料2级混凝土的骨料-砂浆界面过渡区硬度分别为大体积混凝土的53.94、34.21和44.08%。硅粉的加入提高了再生粗骨料混凝土的平均显微硬度,并反映在两种再生粗骨料混凝土的力学性能上。建议使用球磨机处理的再生粗骨料作为天然粗骨料的完全替代品,同时添加5%的硅粉以获得更好的性能。
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来源期刊
Advances in Civil Engineering Materials
Advances in Civil Engineering Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
2.70
自引率
7.10%
发文量
40
期刊介绍: The journal is published continuously in one annual issue online. Papers are published online as they are approved and edited. Special Issues may also be published on specific topics of interest to our readers. Advances in Civil Engineering Materials provides high-quality, papers on a broad range of topics relating to the properties and performance of civil engineering materials. Materials Covered: (but not limited to) Concrete, Asphalt, Steel, Polymers and polymeric composites, Wood, Other materials used in civil engineering applications (for example, pavements, bridges, and buildings, including nonstructural building elements such as insulation and roofing), and environmental systems (including water treatment). Core Topics Covered: Characterization, such as chemical composition, nanostructure, and microstructure, Physical properties, such as strength, stiffness, and fracture behavior, Constructability, such as construction methods, quality control/assurance, life cycle analysis, and sustainability, Durability. Papers may present experimental or modeling studies based on laboratory or field observations. Papers relating to sustainability of engineering materials or to the impact of materials on sustainability of engineering structures are especially encouraged.
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