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Studies on the Mechanical Properties of Inter-Layer Interlocking 3D Printed Concrete Based on a Novel Nozzle (2024-12)

10.1016/j.cscm.2024.e04193

 Jiang Youbau, Gao Pengxiang, Adhikari Sondipon, Yao Xiaofei,  Zhou Hao, Liu Yan
Journal Article - Case Studies in Construction Materials, No. e04193

Abstract

The interlocking can effectively improve the mechanical properties of concrete. However, the strength of 3D printed concrete with interlocking interfaces, fabricated using non-automated methods, is reduced due to the time-consuming interface processing. Additionally, studies on the effects of interlocking on the mechanical properties, failure modes, and anisotropic behavior of 3D printed concrete are not yet systematic. In order to address these issues, a printing forming scheme and nozzles were designed for interlayer interlocking 3D printing, and the mechanical properties of interlayer interlocking 3D printed concrete were tested. Firstly, the forming scheme and nozzles are specifically designed for the preparation of 3D printed concrete with interlocking interfaces between the layers. Furthermore, extrudability tests are carried out to determine the appropriate printing parameters for interlayer interlocking 3D printed concrete. Finally, specimens were printed, and interfacial splitting tests, interlayer interfacial shear tests, and compression tests were conducted. The results reveal that: (1) by using an extrusion rate of the rotating shaft is 1 r/s, a nozzle travel speed of 30 mm/s, combined with appropriate mix ratio, the better forming interlayer interlocking concrete filament can be obtained. (2) the interlayer interlocking 3D printed specimens exhibit higher strength. The interfacial splitting tensile strength is increased by about 14.5% to 30.7%, and the interlayer interfacial shear strength is increased by about 7.8% to 18.0% compared to those with smooth interlayer interfaces. (3) the interlayer interlocking 3D printed concrete exhibits a reduction in the anisotropic coefficient of about 13.7% to 25.5%, and the anisotropy is significantly weakened.

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BibTeX 
@article{jian_gao_adhi_yao.2024.SotMPoILI3PCBoaNN,
  author            = "Youbau Jiang and Pengxiang Gao and Sondipon Adhikari and Xiaofei Yao and Hao Zhou and Yan Liu",
  title             = "Studies on the Mechanical Properties of Inter-Layer Interlocking 3D Printed Concrete Based on a Novel Nozzle",
  doi               = "10.1016/j.cscm.2024.e04193",
  year              = "2024",
  journal           = "Case Studies in Construction Materials",
  pages             = "e04193",
}
Formatted Citation

Y. Jiang, P. Gao, S. Adhikari, X. Yao, H. Zhou and Y. Liu, “Studies on the Mechanical Properties of Inter-Layer Interlocking 3D Printed Concrete Based on a Novel Nozzle”, Case Studies in Construction Materials, p. e04193, 2024, doi: 10.1016/j.cscm.2024.e04193.

Jiang, Youbau, Pengxiang Gao, Sondipon Adhikari, Xiaofei Yao, Hao Zhou, and Yan Liu. “Studies on the Mechanical Properties of Inter-Layer Interlocking 3D Printed Concrete Based on a Novel Nozzle”. Case Studies in Construction Materials, 2024, e04193. https://doi.org/10.1016/j.cscm.2024.e04193.