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Printable and Mechanical Performance of 3D Printed Concrete Employing Multiple Industrial Wastes

Bolin Wang, Zhai Mingang, Xiaofei Yao, Qing Wu, Min Yang, Xiangyu Wang, Jizhuo Huang, Hongyu Zhao

2022Buildings33 citationsDOIOpen Access PDF

Abstract

Three-dimensional concrete printing is a promising technology and attracts the significant attention of research and industry. However, printable and mechanical capacities are required for 3D printable cementitious materials. Moreover, the quantitative analysis methods of printable performance are limited and have low sensitivity. In this study, the orthogonal experiment through samples combining 3D concrete printing method with fly ash, silica fume, and ground granulated blast furnace slag was designed to obtain the printable and mechanical property influence of various mix proportions. Furthermore, multiple industrial wastes were utilized to improve material sustainability. Meanwhile, the static and dynamic extrusion pressure measured by the original 3D printing extrudability tester were verified to achieve a high-sensitivity evaluating indicator. Thereby, a novel high-sensitivity quantitative analysis method of printable capacity was established to explore the influence of industrial wastes usage on the printability of 3D printable mortars. The optimum dosage of fly ash, silica fume, and ground granulated blast furnace slag was 20 wt.%, 15 wt.%, and 10 wt.%, respectively, based on printable and mechanical property experiments. Furthermore, the optimum dosage was employed to print the sample and achieved a higher compressive strength (56.3 MPa) than the control cast.

Topics & Concepts

Silica fumeMaterials scienceFly ashCementitiousGround granulated blast-furnace slagCompressive strength3D printingComposite materialMortarExtrusionCementInnovations in Concrete and Construction MaterialsAdditive Manufacturing and 3D Printing TechnologiesInnovative concrete reinforcement materials
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