低碳三维打印混凝土的最新发展:通过创新技术彻底改变建筑业

Mehran Khan, Ciaran McNally
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引用次数: 0

摘要

三维打印混凝土(3DPC)代表了建筑业的创新进步,它能够创建复杂的定制结构,同时减少材料浪费并加快施工进度。本综述深入探讨了 3DPC 技术的最新进展及其重塑建筑和施工领域的能力。本文探讨了 3DPC 打印系统、方法、材料和应用方面的最新进展。它特别强调了对 3DPC 过程产生重大影响的各种参数和混凝土混合比例。此外,本研究还深入探讨了如何利用废弃材料作为补充胶凝材料,即纳米粘土、纳米二氧化硅和研磨粒化高炉矿渣,以提高 3DPC 的性能。这一讨论延伸到将 3DPC 作为低碳混凝土的考虑,概述了其优势以及与实际应用相关的挑战。此外,论文还介绍了大规模 3DPC 应用和结构的案例研究,讨论了其经济和环境成果,特别是在将废料纳入 3DPC 应用时。通过这些全面的分析,论文强调了 3DPC 在彻底改变建筑实践方面的潜力,并预测了这一充满活力的领域的进一步发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent developments on low carbon 3D printing concrete: Revolutionizing construction through innovative technology

3D Printing Concrete (3DPC) represents an innovative advancement in construction, enabling the creation of intricate and custom structures while simultaneously reducing material waste and expediting construction schedules. This comprehensive review delves into the latest advancements in 3DPC technology and its capacity to reshape the building and construction sectors. The paper explores recent progress in 3DPC printing systems, methodologies, materials, and applications. It places particular emphasis on the diverse parameters and concrete mix proportions that wield substantial influence over the 3DPC process. Furthermore, this study delves into the utilization of waste materials as Supplementary Cementitious Materials, i.e., nano clay, nano-silica, and ground granulated blast-furnace slag, to enhance the properties of 3DPC. This discussion extends to the consideration of 3DPC as a low-carbon concrete, outlining both its advantages and the challenges associated with its practical implementation. Additionally, the paper presents case studies of large-scale 3DPC applications and structures, discussing their economic and environmental outcomes, particularly when incorporating waste materials into 3DPC applications. Through this comprehensive analysis, the paper highlights the potential of 3DPC to revolutionize construction practices and anticipates further advancements in this dynamic field.

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CiteScore
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