The One-Dimensional Moisture Transport Model for Concrete Under Dry–Wet Cycles
Artikel i vetenskaplig tidskrift, 2026

This study proposes a novel analytical model to predict one-dimensional moisture transport in concrete under cyclic drying and wetting conditions. The framework distinguishes between two physical mechanisms: diffusion-driven evaporation during drying and capillary-driven suction during wetting. Governing equations for weight loss and gain are derived for each respective phase. During the drying phase, weight loss follows a linear relationship with the square root of time, allowing the diffusion coefficient to be determined via evaporation tests. For the wetting phase, a modified sorptivity approach is employed, incorporating an error-function baseline to account for residual moisture. A calibration coefficient of ε is utilized to correct for varying conditions between standard water suction tests and environmental wetting, particularly for air-entrained concrete characterized by larger capillary volumes and complex tortuosity. Experimental validation was conducted on concrete with varying water-to-cement ratios. The model demonstrated excellent agreement with experimental data, maintaining relative errors below 10% for standard mixes. While higher-porosity samples exhibited greater scatter due to “water traps” and complex pore structures, the model effectively captured cumulative moisture trends over multiple cycles. This framework provides a robust tool for assessing the durability of concrete structures in unsheltered environments.

moisture transport

sorptivity

concrete

diffusion

dry–wet cycles

Författare

Y. J. Chen

Vrije Universiteit Brüssel (VUB)

Luping Tang

Chalmers, Arkitektur och samhällsbyggnadsteknik, Byggnadsteknologi

J. M. Gao

Southeast University

Shuping Wang

Chongqing University

Guangxuan Wang

TU Delft

Buildings

20755309 (eISSN)

Vol. 16 11 2204

Ämneskategorier (SSIF 2025)

Husbyggnad

DOI

10.3390/buildings16112204

Mer information

Senast uppdaterat

2026-06-23