2018
DOI: 10.3151/jact.16.262
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Deformation Mechanism of Cement Paste and Hydrates under High Stress

Abstract: Hardened cement paste (HCP) and compacts made of hydrates were analysed to understand the deformation mechanism of hardened concrete. A normal creep test and a creep test with stepwise increasing load were performed on HCP, and the results indicated that the deformation of HCP is governed by dislocation creep. The stepwise creep test was performed on the compacts of calcium hydroxide, synthesized ettringite, and calcium silicate hydrate (C-S-H), and crushed HCP at a confining pressure of 50 MPa. The hydrates, … Show more

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Cited by 7 publications
(1 citation statement)
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“…If the response of C-S-H under high stress is similar to metal glass and if dislocation creep occurs in HCP, crystalline hydrates such as calcium hydrates or ettringite may govern the deformation under high stress. As these crystalline hydrates are not dominant in volume, they likely form a skeleton to resist the applied load, and the deformation of this structure may be governed by the dislocation creep [43]. The calcium hydroxide crystal is large, and its aspect ratio is high.…”
Section: Contribution Of C-s-h To Deformation Of Hcpmentioning
confidence: 99%
“…If the response of C-S-H under high stress is similar to metal glass and if dislocation creep occurs in HCP, crystalline hydrates such as calcium hydrates or ettringite may govern the deformation under high stress. As these crystalline hydrates are not dominant in volume, they likely form a skeleton to resist the applied load, and the deformation of this structure may be governed by the dislocation creep [43]. The calcium hydroxide crystal is large, and its aspect ratio is high.…”
Section: Contribution Of C-s-h To Deformation Of Hcpmentioning
confidence: 99%