Mechanical properties of 3D printed concrete: a RILEM 304-ADC interlaboratory study – compressive strength and modulus of elasticity

Traditional construction techniques, such as in-situ casting and pre-cast concrete methods, have well-established testing protocols for assessing compressive strength and modulus of elasticity, including specific procedures for sample preparation and curing. In contrast, 3D concrete printing current...

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Main Authors:	Viktor Mechtcherine, Shravan Muthukrishnan, Annika Robens‑Radermacher, Rob Wolfs, Jelle Versteege, Costantino Menna, Onur Ozturk, Nilufer Ozyurt, Josef Roupec, Christiane Richter, Jörg Jungwirth, Luiza Miranda, Rebecca Ammann, Jean‑François Caron, Victor de Bono, Renate Monte, Iván Navarrete, Claudia Eugenin, Hélène Lombois‑Burger, Bilal Baz, Maris Sinka, Alise Sapata, Ilhame Harbouz, Yamei Zhang, Zijian Jia, Jacques Kruger, Jean‑Pierre Mostert, Mateja Štefančič, Chalermwut Snguanyat, Arun Arunothayan, Zengfeng Zhao, Inka Mai, Inken Jette Rasehorn, David Böhler, Niklas Freund, Dirk Lowke, Tobias Neef, Markus Taubert, Daniel Auer, C. Maximilian Hechtl, Maximilian Dahlenburg, Laura Esposito, Richard Buswell, John Temitope Kolawole, Muhammad Nura Isa, Xingzi Liu, Zhendi Wang, Kolluru Subramaniam, Freek Bos
Format:	Default Article
Published:	2025
Subjects:	Civil engineering Building & Construction Additive manufacturing Digital fabrication Hardened concrete Compressive strength Young's modulus
Online Access:	https://hdl.handle.net/2134/31171402.v1
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