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Using 3D printed formworks for the creation of steel fibre reinforced concrete-plastic columns

Jacek Katzer, Aneta Skoratko

2022Construction and Building Materials18 citationsDOIOpen Access PDF

Abstract

A concept of steel fibre reinforced concrete–plastic columns was proved and discussed in the paper. Plastic was playing the role of stay-in-place 3D printed formwork. Seven cross-sections representing different types of shapes of columns (from circular to fractal-based) were created. 3D printed plastic stay-in-place formworks were filled with steel fibre reinforced concrete. After ordinary curing, the specimens were loaded. During the tests load–strain characteristics were recorded. Both the destruction characteristics and the energy dissipated during the loading up to 3.5% strain were of special interest. The achieved results were analysed and discussed. Columns with traditional circular and square cross-section were characterized by sudden destruction of the formworks. Specimens with fractal-based cross-sections were characterized by a very smooth destruction process associated with significant deformations of formworks. All steel fibre reinforced concrete–plastic columns in question were characterized by highly quasi-plastic behaviour. The achieved results proved that it is feasible to replace traditional formwork and ordinary concrete (reinforced by steel bars and stirrups) by much more automatized 3D printing of plastic and steel fibre reinforced concrete based solution. The future aims of the much needed research should cover both large scale column specimens and other structural elements.

Topics & Concepts

FormworkMaterials scienceComposite materialStructural engineeringReinforced concreteCuring (chemistry)EngineeringInnovations in Concrete and Construction MaterialsAdditive Manufacturing and 3D Printing TechnologiesBIM and Construction Integration
Using 3D printed formworks for the creation of steel fibre reinforced concrete-plastic columns | Litcius