Carbonation Resistance of Cement-Based Materials Improved by Nitrite

Hao Zhang; Luqing Cheng; Jingsheng Pan; Guodong Xu; Xuyan Shen; Song Mu; Jingshun Cai; Jianzhong Liu; Jinxiang Hong; Zhiqiang Yang; Zhonglai Yi; Huajian Li; Ying Zhou

doi:10.1155/2024/8895736

Advances in Materials Science and Engineering (Jan 2024)

Carbonation Resistance of Cement-Based Materials Improved by Nitrite

Hao Zhang,
Luqing Cheng,
Jingsheng Pan,
Guodong Xu,
Xuyan Shen,
Song Mu,
Jingshun Cai,
Jianzhong Liu,
Jinxiang Hong,
Zhiqiang Yang,
Zhonglai Yi,
Huajian Li,
Ying Zhou

Affiliations

Hao Zhang: National Key Laboratory of High-speed Railway Track System (China Academy of Railway Sciences Group Co., LTD.)
Luqing Cheng: Southeast University
Jingsheng Pan: State Key Laboratory of High Performance Civil Engineering Materials
Guodong Xu: State Key Laboratory of High Performance Civil Engineering Materials
Xuyan Shen: State Key Laboratory of High Performance Civil Engineering Materials
Song Mu: State Key Laboratory of High Performance Civil Engineering Materials
Jingshun Cai: State Key Laboratory of High Performance Civil Engineering Materials
Jianzhong Liu: State Key Laboratory of High Performance Civil Engineering Materials
Jinxiang Hong: State Key Laboratory of High Performance Civil Engineering Materials
Zhiqiang Yang: National Key Laboratory of High-speed Railway Track System (China Academy of Railway Sciences Group Co., LTD.)
Zhonglai Yi: National Key Laboratory of High-speed Railway Track System (China Academy of Railway Sciences Group Co., LTD.)
Huajian Li: National Key Laboratory of High-speed Railway Track System (China Academy of Railway Sciences Group Co., LTD.)
Ying Zhou: State Key Laboratory of High Performance Civil Engineering Materials

DOI: https://doi.org/10.1155/2024/8895736
Journal volume & issue: Vol. 2024

Abstract

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Carbonation resistance ability is one of the most important durability-related proprieties of cement-based materials. Through the carbonation depth experiment, isothermal conduction calorimetry, XRD, BET, and water vapor sorption, the effect of calcium nitrite (Ca(NO3)2) on the carbonation properties of cement-based materials is obtained. The result indicates that the addition of Ca(NO3)2 improves the carbonation resistance property of cement-based materials if the hydration of cement pastes and microstructure is modified earlier without affecting the late hydration process. In addition, the refined pores and higher tortuosity cut down the channels, thereby impeding the ingress of carbon dioxide gas into cementitious materials, as confirmed by BET and water vapor sorption. The Ca(NO3)2 exhibits high performance in improving the carbonation resistance and extending the life of strengthened concrete.

Published in Advances in Materials Science and Engineering

ISSN: 1687-8434 (Print); 1687-8442 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://onlinelibrary.wiley.com/journal/5928

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