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Thermo-Mechanical Response of Geocell-Reinforced Concrete Pavements: Scaled Model Tests and Finite Element Analyses

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  • Binhui Ma

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China
    Hunan Provincial Key Laboratory of Geotechnical Engineering for Stability Control and Health Monitoring, Xiangtan 411201, China
    Hunan University of Science and Technology Engineering Testing Co., Ltd., Xiangtan 411201, China)

  • Long Peng

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China)

  • Tian Lan

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China
    Hunan Provincial Key Laboratory of Geotechnical Engineering for Stability Control and Health Monitoring, Xiangtan 411201, China)

  • Chao Zhang

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China
    Hunan Provincial Key Laboratory of Geotechnical Engineering for Stability Control and Health Monitoring, Xiangtan 411201, China)

  • Bicheng Du

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China)

  • Quan Peng

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China)

  • Jiaseng Chen

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China)

  • Xiangrong Li

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China)

  • Yuqi Li

    (School of Civil Engineering, Hunan University of Science and Technology, Xiangtan 411201, China)

Abstract

This study investigates the thermo-mechanical response of geocell-reinforced concrete pavements through scaled model tests and three-dimensional finite element analyses. Static, thermal, traffic, and coupled temperature–loading tests were conducted to clarify the deformation evolution, strain distribution, and damage-related response of the reinforced structure. The results show that, under static loading, pavement settlement evolves through three stages, namely initial compaction, plastic development, and stable strengthening, indicating progressive mobilization of geocell confinement. Under thermal loading, slab strain exhibits pronounced spatial and temporal non-uniformity, and the slab center is identified as the thermally sensitive zone. Under coupled temperature–loading conditions, both strain and settlement show a non-monotonic response near 1.1–1.3 kN, suggesting a potential damage-initiation range. Post-test crack observations further provide direct qualitative evidence that local cracking damage occurred in the slab under representative loading conditions. Under traffic loading, permanent deformation accumulates with load repetitions and is highly sensitive to load amplitude, indicating a load-sensitive transition in cumulative deformation behavior rather than a definitive fatigue threshold. Numerical results further show that geocell reinforcement reduces central settlement by 17.4% relative to plain concrete pavement and by 7.6% relative to doweled pavement, while producing a smoother deflection basin and a more uniform stress distribution. Parametric analyses indicate that the optimum geocell height is approximately one-third of the slab thickness; beyond this range, the marginal reinforcement benefit decreases. Overall, the results demonstrate that geocell reinforcement can effectively improve load transfer, deformation compatibility, and thermo-mechanical stability of concrete pavements under the investigated conditions.

Suggested Citation

  • Binhui Ma & Long Peng & Tian Lan & Chao Zhang & Bicheng Du & Quan Peng & Jiaseng Chen & Xiangrong Li & Yuqi Li, 2026. "Thermo-Mechanical Response of Geocell-Reinforced Concrete Pavements: Scaled Model Tests and Finite Element Analyses," Sustainability, MDPI, vol. 18(8), pages 1-28, April.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:8:p:3767-:d:1917592
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