Effects of sodium/calcium cation exchange on the mechanical properties of calcium silicate hydrate (C-S-H)
YL Yaphary and D Lau and F Sanchez and CS Poon, CONSTRUCTION AND BUILDING MATERIALS, 243, 118283 (2020).
DOI: 10.1016/j.conbuildmat.2020.118283
Calcium silicate hydrate layer (C-S-H-layer) is considered to be the fundamental building block of hydrated cement. The effect of sodium ions on the atomic scale mechanical properties of C-S-H-layer remains, however, unclear. Yet, this information is critical for understanding and predicting the macroscopic performance of concrete structures during their service life. Herein, the intrinsic mechanical properties of C-S- H-layer with sodium-exchange ions replacing some calcium cations were studied by molecular dynamics simulations. The interatomic interactions provided insights into the role of Na+ within the atomistic scale of C-S-H-layer. It was found that Na+ did not significantly alter the mechanical properties (i.e., strength and stiffness) of C-S-H-layer. The larger cationic attraction on the interlayer water molecules seen in the presence of Na+ occurred due to the exchange of two Na+ for one calcium cation and resulted in a volume expansion of C-S-H-layer while a stiffening of its interlayer. (C) 2020 Elsevier Ltd. All rights reserved.
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