Multi-scale Deterioration Gradients of Near-Surface Rock Masses in the TGR Hydro-Fluctuation Zone
ID:20 View Protection:ATTENDEE Updated Time:2026-07-04 20:02:06 Hits:0 Poster Presentation

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Abstract
Periodic water-level fluctuations in the Three Gorges Reservoir (TGR) severely deteriorate bank slope rock masses, threatening navigation safety. While laboratory wetting-drying simulations on fresh rocks are extensive, the actual degradation state of in-situ near-surface rock masses remains severely under-characterized. This study integrates field investigations with multi-scale laboratory testing to quantify the deterioration of typical carbonate and sandstone formations. Our observations reveal a distinct spatial weathering gradient. In the outermost layer (0–100 cm), compressive strength drops by 53.9% for limestone and 67.9% for sandstone, accompanied by macropore-dominated high porosities (10.6% and 15.2%, respectively). At 3 m depth, degradation mitigates, with porosity dropping below 3.4% and mechanical strength significantly recovering. Lithology dictates the coupled physical-chemical deterioration mechanisms. In limestone, the synergy of calcite dissolution and cyclic hydro-mechanical fatigue creates interconnected fractures, causing structural disintegration. Conversely, sandstone degradation is dominated by clay swelling-shrinkage and cement dissolution, leading to granular disintegration. These findings provide a quantitative micro-mechanical basis for predicting slope instability in reservoir hydro-fluctuation zones.
Keywords
Reservoir bank slope,Hydro-fluctuation zone,Multi-scale deterioration,Near-surface rock masses
Speaker
Deheng Kong
Postdoc Tongji University

Submission Author
Deheng Kong Tongji University
Bo Li Tongji University
Heyu Cheng Tongji University
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Important Date
  • Conference Date

    Aug 09

    2026

    to

    Aug 12

    2026

  • Aug 09 2026

    Draft paper submission deadline

  • Aug 12 2026

    Registration deadline

Sponsored By
International Consortium on Geo-disaster Reduction (ICGdR)
UNESCO Chair on Geoenvironmental Disaster Reduction
Organized By
The Hong Kong Polytechnic University