Compressive strength development and microstructure evolution of mortars prepared using reactivated cementitious materials under carbonation curing
Compressive strength development and microstructure evolution of mortars prepared using reactivated cementitious materials under carbonation curing
The effect of carbonation curing on depth-wise carbonation gradient and compressive strength development of RCM was evaluated. The RCM mortars were carbonated for seven curing periods, complemented by a thorough investigation of carbonation degree, phase assemblage, and microstructural at varying depths. Results showed a significant increase in compressive strength, from 3.3 MPa on the first day to 51.7 MPa after seven days and 63.5 MPa after 28 days of carbonation curing. A notable gradient in CaCO3 concentration was observed, decreasing from 41.4% at the surface to 16.8% at 25 mm depths. Additionally, the formation of CaCO3 polymorphs and Ca-modified silica gel in the surface layers was found to enhance microstructural density and impede CO2 penetration, while a higher prevalence of micropores was noted in the inner regions. These findings highlight the potential of optimizing the carbonation regime or employing internal carbonation methods to achieve a more homogeneous microstructure.
Liao, Haitao
4eeedb64-7d0e-421d-ab4d-53aa6018dcfa
Ju, Yutong
729a1024-6d8b-4cbf-9e90-207b76676250
Lyu, Hanxiong
5bf31786-017b-432b-ae95-3cf20c40c749
Liu, Tiejun
07e72a65-be75-4b13-b54d-9ed949c93470
Han, Dongsheng
96a50321-f32c-4054-908c-1c040fa32e86
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
12 March 2024
Liao, Haitao
4eeedb64-7d0e-421d-ab4d-53aa6018dcfa
Ju, Yutong
729a1024-6d8b-4cbf-9e90-207b76676250
Lyu, Hanxiong
5bf31786-017b-432b-ae95-3cf20c40c749
Liu, Tiejun
07e72a65-be75-4b13-b54d-9ed949c93470
Han, Dongsheng
96a50321-f32c-4054-908c-1c040fa32e86
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
Liao, Haitao, Ju, Yutong, Lyu, Hanxiong, Liu, Tiejun, Han, Dongsheng and Li, Ye
(2024)
Compressive strength development and microstructure evolution of mortars prepared using reactivated cementitious materials under carbonation curing.
Developments in the Built Environment, 18.
(doi:10.1016/j.dibe.2024.100397).
Abstract
The effect of carbonation curing on depth-wise carbonation gradient and compressive strength development of RCM was evaluated. The RCM mortars were carbonated for seven curing periods, complemented by a thorough investigation of carbonation degree, phase assemblage, and microstructural at varying depths. Results showed a significant increase in compressive strength, from 3.3 MPa on the first day to 51.7 MPa after seven days and 63.5 MPa after 28 days of carbonation curing. A notable gradient in CaCO3 concentration was observed, decreasing from 41.4% at the surface to 16.8% at 25 mm depths. Additionally, the formation of CaCO3 polymorphs and Ca-modified silica gel in the surface layers was found to enhance microstructural density and impede CO2 penetration, while a higher prevalence of micropores was noted in the inner regions. These findings highlight the potential of optimizing the carbonation regime or employing internal carbonation methods to achieve a more homogeneous microstructure.
Text
Compressive strength development and microstructure evolution of mortars prepared using reactivated cementitious materials under carbonation curing
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Accepted/In Press date: 5 March 2024
e-pub ahead of print date: 6 March 2024
Published date: 12 March 2024
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Local EPrints ID: 498340
URI: http://eprints.soton.ac.uk/id/eprint/498340
PURE UUID: 26651bb5-36ee-45b6-b946-fef3d1cc7cef
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Date deposited: 17 Feb 2025 17:36
Last modified: 18 Feb 2025 03:12
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Author:
Haitao Liao
Author:
Yutong Ju
Author:
Hanxiong Lyu
Author:
Tiejun Liu
Author:
Dongsheng Han
Author:
Ye Li
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