Macro-microscopically numerical analysis on expansion response of hardened cement paste under external sulfate attack

•Expansion response of hardened cement paste (HCP) under ESA is studied.•A macro-microscopic chemo-mechanical model for HCP specimen is proposed.•Macro-micro transition is constructed to bridge macro- and microscopic models.•Expansion response of HCP cylinder in Na2SO4 solution is numerically analyz...

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Bibliographic Details
Published in:Construction & building materials 2019-05, Vol.207, p.600-615
Main Authors: Yin, Guang-Ji, Zuo, Xiao-Bao, Sun, Xiang-Hua, Tang, Yu-Juan
Format: Article
Language:English
Subjects:
Backup software
Cements (Building materials)
Chemical kinetics
Chemotherapy
EDTA
Expansion response
External sulfate attack
Hardened cement paste
Laws, regulations and rules
Macro- and microscopic model
Numerical analysis
Numerical investigation
Representative volume element
Sulfates
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Summary:•Expansion response of hardened cement paste (HCP) under ESA is studied.•A macro-microscopic chemo-mechanical model for HCP specimen is proposed.•Macro-micro transition is constructed to bridge macro- and microscopic models.•Expansion response of HCP cylinder in Na2SO4 solution is numerically analyzed. A macro-microscopically chemo-mechanical model has been proposed to numerically investigate the expansion response of hardened cement paste (HCP) under external sulfate attack (ESA). In this model, a saturated HCP specimen and a representative volume element (RVE) are regarded as macro- and microscopic objects. At the macroscale, the sulfate diffusion and expansion response in HCP are described by using Fick’s law and continuum mechanics. At the microscale, the growth of sulfate products and its induced mechanical response in RVE are characterized by using reaction kinetics and microporomechanics. Meanwhile, the macro-micro transition of relevant parameters, such as sulfate concentration, mechanical property, and expansive eigenstrain, is constructed to bridge the relationship between the macro and micro scales. Numerical simulation on expansion response of a HCP cylinder immersed in Na2SO4 solution is performed. Results show that, there exist some differences in the macro- and microscopic expansion responses induced by the growth of sulfate products in the pore, and the microscopic hoop tensile stress is responsible for the initiation and propagation of microcracks in the cement paste.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2019.02.159