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3D‐printed architectured cement‐based materials exhibit improved mechanical properties compared to their cast counterparts. The presence of heterogeneous interfaces, combined with engineered architecture, promotes development of unique damage mechanisms, such as interfacial cracking and crack twisting, which lead to damage delocalization. This delocalization can be energetically favorable, thus resulting...
There is an increasing interest in hierarchical design and additive manufacturing (AM) of cement‐based materials. However, the brittle behavior of these materials and the presence of interfaces from the AM process currently present a major challenge. Contrary to the commonly adopted approach in AM of cement‐based materials to eliminate the interfaces in 3D‐printed hardened cement paste (hcp) elements,...
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