Effect of potassium and sodium-based electrolyzed water on the rheological properties and structural build-up of 3D printed cement composites

IF 6.7 2区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
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Abstract

The uncontrollable printability and structural integrity limit the development and application of 3D printed cement composites. In this study, the potassium and sodium-based electrolyzed water (KEW and NEW) were incorporated into the 3D printed ordinary Portland cement composites (OPCCs) to adjust rheological properties, aiming to improve printability and optimize the printed structure build-up. Experimental results show that the KEW can enhance the elastic modulus and decrease the strain notably as the applied shear stress increases. Compared with tap water (TW), the KEW and NEW increase the static yield stress based on oscillation-shear and creep-recovery protocol, and improve thixotropy. Besides, the structure deformation of 3D printed OPCCs with NEW and KEW decreases from 11.81 % to 8.34 % and 8.22 %, respectively, representing a margin of approximately 29.4 % and 30.4 %. Furthermore, the compressive and flexural strength of 3D printed OPCCs with KEW increases from 25.5 to 29.4 MPa and 3.55 to 4.04 MPa, respectively, benefitting from the lower porosity and higher hydration rate. In conclusion, the incorporation of electrolyzed water into 3D printed OPCCs demonstrates considerable potential, effectively enhancing printability and optimizing structure build-up.

钾基和钠基电解水对 3D 打印水泥复合材料流变特性和结构构建的影响
可打印性和结构完整性的不可控性限制了3D打印水泥复合材料的开发和应用。本研究将钾基和钠基电解水(KEW和NEW)加入到3D打印的普通波特兰水泥复合材料(OPCC)中以调节流变特性,旨在改善打印性能并优化打印结构的构建。实验结果表明,当施加的剪切应力增大时,KEW 可显著提高弹性模量并降低应变。与自来水(TW)相比,基于振荡-剪切和蠕变-恢复协议,KEW 和 NEW 能提高静态屈服应力,并改善触变性。此外,使用 NEW 和 KEW 的三维打印 OPCC 的结构变形分别从 11.81% 下降到 8.34% 和 8.22%,降幅约为 29.4% 和 30.4%。此外,得益于较低的孔隙率和较高的水化率,使用 KEW 的 3D 打印 OPCC 的抗压和抗弯强度分别从 25.5 兆帕增加到 29.4 兆帕,从 3.55 兆帕增加到 4.04 兆帕。总之,在三维打印 OPCC 中加入电解水显示出了巨大的潜力,可有效提高打印性能并优化结构的构建。
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
Journal of building engineering
Journal of building engineering Engineering-Civil and Structural Engineering
CiteScore
10.00
自引率
12.50%
发文量
1901
审稿时长
35 days
期刊介绍: The Journal of Building Engineering is an interdisciplinary journal that covers all aspects of science and technology concerned with the whole life cycle of the built environment; from the design phase through to construction, operation, performance, maintenance and its deterioration.
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