利用再生混凝土生产高强度混凝土的绿色方法

Mostafa Shaaban, W. Edris, Essam Odah, Mohamed Salah Ezz, Abd Al-Kader A. Al-Sayed
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摘要

近来,多项研究调查了从混凝土废料中提取的再生骨料对结构混凝土制造效果的影响。通过利用从建筑和拆除废料中提取的再生骨料,可以保护天然骨料资源,减少对垃圾填埋场空间的需求,促进可持续建筑材料的利用。然而,与天然骨料相比,使用再生混凝土骨料的粘结水泥砂浆孔隙率更高、吸水能力更强、强度更低。因此,用再生混凝土骨料制成的新浇混凝土和硬化混凝土的力学性能和耐久性能都会受到不利影响。本研究采用可压缩填料模型,对普通和高强度再生骨料混凝土(RAC)混合料的残余力学性能和抗酸碱侵蚀能力进行了全面的实验研究。粗骨料和细骨料均采用了再生骨料。再生混凝土样品的制备方式与粗骨料和细骨料的比例一致。设计并浇注了 12 种混合物,并根据各种强度参数(抗压强度、劈裂拉伸强度和抗折强度)以及耐酸侵蚀性能(孔隙率和超声波脉冲速度)对其性能进行了评估。研究结果表明,再生混凝土骨料可用于生产高强度混凝土,其机械性能值明显优于含有天然骨料的混凝土。此外,在混凝土中添加硅灰作为水泥替代物,对提高抗硫酸盐性能起着至关重要的作用。在混凝土产品利用方面,再生混凝土及其在本研究中的意义对环境保护起到了至关重要的作用。Doi: 10.28991/CEJ-2023-09-10-08 全文:PDF
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A Green Way of Producing High Strength Concrete Utilizing Recycled Concrete
Multiple studies have investigated the influence of recycled aggregates derived from concrete waste on the efficacy of structural concrete manufactured in recent times. By utilizing recycled aggregates obtained from construction and demolition debris, it is possible to safeguard natural aggregate resources, reduce the demand for landfill space, and promote the utilization of sustainable building materials. However, compared to natural aggregate, bonded cement mortar on recycled concrete aggregate exhibits higher porosity, greater water absorption capacity, and lower strength. The mechanical and durability characteristics of freshly poured and hardened concrete made from recycled concrete aggregate are adversely affected as a result. This study presents comprehensive experimental research aimed at examining the residual mechanical properties and resistance to acid attack of normal and high-strength mixes of recycled aggregate concrete (RAC) using the compressible packing model. Recycled aggregate was employed as both coarse and fine aggregate. The recycled concrete samples were prepared in a manner that corresponded to the proportions of both the coarse and fine aggregates. Twelve mixtures were designed and cast, and their performance was evaluated based on various strength parameters (compressive strength, splitting tensile strength, and flexural strength) as well as acid attack resistance properties (porosity and ultrasonic pulse velocity). The findings indicate that recycled concrete aggregate can be utilized in the production of high-strength concrete, with mechanical property values that are significantly acceptable compared to concrete containing natural aggregates. Moreover, the addition of Silica Fume as a cement replacement in concrete plays a crucial role in enhancing sulphate resistance. In terms of concrete product utilization, recycled concrete and its significance in this study played a crucial role in environmental preservation. Doi: 10.28991/CEJ-2023-09-10-08 Full Text: PDF
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