创新海岸悬崖稳定-斯卡伯勒悬崖稳定项目

Sam King, Martin Mulcahy, Bobbie Corbett, L. Angus Jackson, Jared Stewart, Loughlin Smith
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引用次数: 0

摘要

海岸悬崖侵蚀退缩是世界范围内普遍存在的问题。由于自然海岸过程的长期侵蚀,导致雷德克里夫半岛(澳大利亚昆士兰州斯卡伯勒)标志性的充满活力的红色悬崖向陆地退缩,这对公共安全和基础设施构成了潜在的风险。对现场海岸过程和岩土条件的调查发现,320米长的悬崖退缩主要是由悬崖底部的缓慢切口侵蚀驱动的,导致上覆的偏侧悬崖面平移块体破坏和较弱的悬崖顶部土壤旋转崩塌。为了防止悬崖底部持续的缺口侵蚀,并随后提高悬崖的整体稳定性,开发了一种“较低的悬崖硬化”解决方案。该方案由彩色和纹理、土钉、玻璃纤维增强聚合物增强喷射混凝土墙组成,旨在复制现有较低悬崖的自然形式和美学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
INNOVATIVE COASTAL CLIFF STABILISATION - THE SCARBOROUGH CLIFFS STABILISATION PROJECT
Coastal cliff erosion and retreat is a common problem worldwide. Long-term erosion due to natural coastal processes have caused the iconic vibrant red cliffs of the Redcliffe peninsular (Scarborough, Queensland, Australia), to retreat landwards, which posed a potential risk to public safety and infrastructure. Investigations into coastal processes and geotechnical conditions at the site found that the retreat of the 320m long section of cliffs was largely driven by the slow notch erosion of the cliff base resulting in translational block failure of the overlying laterized cliff face and rotational collapse of the weaker cliff crest soils. To prevent continued notch erosion of the cliff base and subsequently improve the overall stability of the cliffs, a ‘lower cliff hardening’ solution was developed. This solution comprised of a coloured and textured, soilnailed, glass-fibre reinforced polymer reinforced shotcrete wall, which aimed to replicate the natural form and aesthetic of the existing lower cliff.
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