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陈生水. 高土石坝变形破坏过程预测理论和防控技术创新[J]. 岩土工程学报, 2022, 44(7): 1211-1219. DOI: 10.11779/CJGE202207003
引用本文: 陈生水. 高土石坝变形破坏过程预测理论和防控技术创新[J]. 岩土工程学报, 2022, 44(7): 1211-1219. DOI: 10.11779/CJGE202207003
CHEN Sheng-shui. Innovations in prediction theories and prevention technologies for deformation-induced failure process of high earth and rockfill dams[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(7): 1211-1219. DOI: 10.11779/CJGE202207003
Citation: CHEN Sheng-shui. Innovations in prediction theories and prevention technologies for deformation-induced failure process of high earth and rockfill dams[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(7): 1211-1219. DOI: 10.11779/CJGE202207003

高土石坝变形破坏过程预测理论和防控技术创新

Innovations in prediction theories and prevention technologies for deformation-induced failure process of high earth and rockfill dams

  • 摘要: 中国是世界上高土石坝数量最多的国家,复杂建坝条件和恶劣服役环境下高土石坝建设和长期安全保障面临严峻技术挑战。介绍了“十三五”国家重点研发计划项目“复杂条件下特高土石坝建设与长期安全保障关键技术”的主要成果:揭示了粗粒土颗粒破碎对高土石坝变形的影响机制、粗粒土加载变形和流变变形服从不同流动准则的规律,以及坝基深厚覆盖层原位结构损伤演化规律,建立了精准预测高土石坝坝体和坝基变形发展过程和分布规律的本构理论;基于计算接触力学理论建立了模拟高土石坝不同材料界面复杂接触问题的非线性数值计算方法和模拟高土石坝三维裂缝萌生—扩展全过程的数值计算方法;发展了实用的非饱和土固结理论,实现了高心墙坝全生命期变形与渗流耦合过程的精细模拟;建立了高面板坝面板太阳热辐射温度应力场和结构破损过程模拟计算方法;研发了适用于高土石坝填筑、蓄水、运行等全过程模拟的高性能软件平台;针对特高土石坝建设和运行过程中常见病害,提出了相应的特高土石坝变形破坏防控技术。

     

    Abstract: China is the country with the largest amounts of high earth and rockfill dams in the world. Complex construction conditions and severe operation environment lead to great technical challenges in their construction and long-term safety guarantee. The main research results of the National Research and Development Program of China during the 13th Five-Year Plan period "Key technologies for construction and long-term safety protection of extra-high earth-rock dams under complex conditions" are introduced as follows: the mechanism of particle breakage on deformation of dams, flow rules during loading and creeping of rockfill materials as well as the damage process of in-situ structures of overburden soils are revealed, and the constitutive theories that can be used to predict the deformation developing process and distribution of dam body and foundation are established accordingly. The numerical methods for complex contacting problems and initiation and development of 3D cracks in high earth and rockfill dams are developed based on the computational contact mechanics. The practical consolidation theory of unsaturated soils is developed to simulate the deformation-seepage coupling effects during the whole life spans of high earth and rockfill dams. A new thermo-mechanical coupled method is proposed to account for the temperature-induced stress and damage of concrete slabs in concrete-faced rockfill dams. A high performance software platform is established to simulate the whole process including dam filling, impoundment and operation of high earth and rockfill dams. A series of techniques and measures preventing and controlling the deformation-induced damage processes are suggested for extra high earth and rockfill dams under complex conditions.

     

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