Litcius/Paper detail

Increasing the interlayer strength of 3D printed concrete with tooth-like interface: An experimental and theoretical investigation

Lewei He, Hua Li, Wai Tuck Chow, Biqing Zeng, Ye Qian

2022Materials & Design38 citationsDOIOpen Access PDF

Abstract

In 3D concrete printing, layer interface and interlayer notch are generated by the layer-by-layer process. Therefore, the 3D printed concrete is anisotropic with the interlayer strength lower than the strengths measured in the other two directions. In order to adequately address this issue, tooth-like layer interface is adopted in the present study for higher interlayer strength. It is found that the tooth-like interface with tooth angle of 45° increases the interlayer tensile and shear strengths by 294% and 89% respectively, and shifts the failure mode from pure adhesive failure to a mixture of adhesive and cohesive failures. Moreover, a theoretical model is developed for the relationship between the interlayer strength and interfacial tooth angle, and then validated by the experimental data with a relative error of about 5%. By this model, further design and optimization of the interfacial geometry would be possible, for higher interlayer strength subject to different parameters and conditions of 3D concrete printing.

Topics & Concepts

Materials scienceComposite materialUltimate tensile strengthLayer (electronics)AdhesiveAnisotropyShear strength (soil)3D printingShear (geology)Failure mode and effects analysisEnvironmental scienceSoil sciencePhysicsQuantum mechanicsSoil waterInnovations in Concrete and Construction MaterialsAdditive Manufacturing and 3D Printing TechnologiesBuilding materials and conservation