Deterioration mechanism of OPC mortar under combined chemical and physical sulfate attack in partial immersion
Deterioration mechanism of OPC mortar under combined chemical and physical sulfate attack in partial immersion
This investigation examines the deterioration mechanisms of Ordinary Portland Cement (OPC) mortars, affected by the dual impact of Physical Salt Attack (PSA) and Chemical Sulfate Attack (CSA). The study utilizes an accelerated partial-immersion sulfate exposure protocol with characterization through visual inspections, SEM, EDX, XRD, and MIP. The results reveal distinct ion migration patterns, highlighting capillary action drives sulfate ions penetrating the core of the immersed portion, while surface evaporation promotes thenardite sub-efflorescence and intensifies degradation in the dry portion. OPC mortars show corner scaling and core microcracking in the immersed portion due to the formation of expansive minerals like ettringite and gypsum. The extent of scaling in dry portion is primarily governed by the W/C ratio, which influences the balance between effective crystallization pressures—determined by pore size filled—and the mechanical properties of the microstructure. OPC mortar with a high W/C ratio experienced progressive delamination in the dry portion due to their smaller size range of pores where crystals grew and higher porosity, which caused greater effective crystallization pressures from the combined effects of CSA and PSA.
Combined sulfate attack, Durability, OPC mortar, Partial-immersion
Wang, Haodong
bd36d0d4-12de-4a21-86fe-a0aaf78ea68a
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
Liao, Haitao
4eeedb64-7d0e-421d-ab4d-53aa6018dcfa
Zou, Dujian
f932d3d9-b218-4268-a86e-0bb63aec1e31
Liu, Tiejun
07e72a65-be75-4b13-b54d-9ed949c93470
11 April 2025
Wang, Haodong
bd36d0d4-12de-4a21-86fe-a0aaf78ea68a
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
Liao, Haitao
4eeedb64-7d0e-421d-ab4d-53aa6018dcfa
Zou, Dujian
f932d3d9-b218-4268-a86e-0bb63aec1e31
Liu, Tiejun
07e72a65-be75-4b13-b54d-9ed949c93470
Wang, Haodong, Li, Ye, Liao, Haitao, Zou, Dujian and Liu, Tiejun
(2025)
Deterioration mechanism of OPC mortar under combined chemical and physical sulfate attack in partial immersion.
Construction and Building Materials, 475, [141187].
(doi:10.1016/j.conbuildmat.2025.141187).
Abstract
This investigation examines the deterioration mechanisms of Ordinary Portland Cement (OPC) mortars, affected by the dual impact of Physical Salt Attack (PSA) and Chemical Sulfate Attack (CSA). The study utilizes an accelerated partial-immersion sulfate exposure protocol with characterization through visual inspections, SEM, EDX, XRD, and MIP. The results reveal distinct ion migration patterns, highlighting capillary action drives sulfate ions penetrating the core of the immersed portion, while surface evaporation promotes thenardite sub-efflorescence and intensifies degradation in the dry portion. OPC mortars show corner scaling and core microcracking in the immersed portion due to the formation of expansive minerals like ettringite and gypsum. The extent of scaling in dry portion is primarily governed by the W/C ratio, which influences the balance between effective crystallization pressures—determined by pore size filled—and the mechanical properties of the microstructure. OPC mortar with a high W/C ratio experienced progressive delamination in the dry portion due to their smaller size range of pores where crystals grew and higher porosity, which caused greater effective crystallization pressures from the combined effects of CSA and PSA.
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More information
Accepted/In Press date: 2 April 2025
e-pub ahead of print date: 11 April 2025
Published date: 11 April 2025
Keywords:
Combined sulfate attack, Durability, OPC mortar, Partial-immersion
Identifiers
Local EPrints ID: 507759
URI: http://eprints.soton.ac.uk/id/eprint/507759
ISSN: 0950-0618
PURE UUID: 54750526-f589-4a0b-a3d3-e21f8ff69da8
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Date deposited: 06 Jan 2026 11:07
Last modified: 07 Jan 2026 03:19
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Contributors
Author:
Haodong Wang
Author:
Ye Li
Author:
Haitao Liao
Author:
Dujian Zou
Author:
Tiejun Liu
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