• 全国中文核心期刊
  • 中国科技核心期刊
  • 美国工程索引(EI)收录期刊
  • Scopus数据库收录期刊
邹德高, 刘京茂, 孔宪京, 陈楷, 屈永倩, 宁凡伟, 龚瑾. 强震作用下特高土石坝多耦合体系损伤演化机理及安全评价准则[J]. 岩土工程学报, 2022, 44(7): 1329-1340. DOI: 10.11779/CJGE202207011
引用本文: 邹德高, 刘京茂, 孔宪京, 陈楷, 屈永倩, 宁凡伟, 龚瑾. 强震作用下特高土石坝多耦合体系损伤演化机理及安全评价准则[J]. 岩土工程学报, 2022, 44(7): 1329-1340. DOI: 10.11779/CJGE202207011
ZOU De-gao, LIU Jing-mao, KONG Xian-jing, CHEN Kai, QU Yong-qian, NING Fan-wei, GONG Jin. Damage evolution mechanism and safety evaluation criterion of ultra-high rockfill dam system under strong earthquakes[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(7): 1329-1340. DOI: 10.11779/CJGE202207011
Citation: ZOU De-gao, LIU Jing-mao, KONG Xian-jing, CHEN Kai, QU Yong-qian, NING Fan-wei, GONG Jin. Damage evolution mechanism and safety evaluation criterion of ultra-high rockfill dam system under strong earthquakes[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(7): 1329-1340. DOI: 10.11779/CJGE202207011

强震作用下特高土石坝多耦合体系损伤演化机理及安全评价准则

Damage evolution mechanism and safety evaluation criterion of ultra-high rockfill dam system under strong earthquakes

  • 摘要: 中国西部拟建多座坝高250~300 m级别的特高土石坝工程,但西部地区地震频度高、强度大,地震的突发性和不确定性对这些特高土石坝的抗震安全构成了巨大威胁。高土石坝抗震安全评价是多系统、真三维、非线性、非连续的复杂问题。然而,传统高土石坝动力分析方法仍在弱非线性范围内,各种相互作用的影响大多被简化并孤立进行,难以对强震作用下特高土石坝动力破坏过程、耦合效应及其影响进行深入研究和科学认识。面向中国300 m级特高土石坝建设需求,依托RM、拉哇等特高土石坝,重点突破了筑坝材料强非线性、大坝-地基-库水动力相互作用、精细化建模和分析方法、自主高性能计算软件以及极限抗震能力评价方法和标准等方面的一系列科学问题和技术难题。研究成果为特高土石坝抗震安全设计提供了先进的评价方法和标准。

     

    Abstract: Several ultra-high earth and rockfill dams up to 250 to 300 m in height are to be built in the intensive earthquake regions of West China. The strong outburst and high uncertainty of strong earthquakes pose a great threat to the safety of ultra-high earth and rockfill dams. The seismic safety evaluation of the ultra-high earth and rockfill dams is a multi-system, three-dimensional, nonlinear and discontinuous problem. However, the traditional dynamic analysis of high earth and rockfill dams is still within the range of weak nonlinearity, and the effects of multi-system interaction are mostly simplified and carried out in isolation, which is difficult to reveal the dynamic failure process and coupling effects of the ultra-high earth and rockfill dams under strong earthquakes. The project is oriented to the construction needs of 300 m-ultra-high earth and rockfill dams. Relying on the ultra-high earth and rockfill dams such as Lava and RM, the strong nonlinearity of the rockfill materials, dam-foundation-reservoir interactions, refined modelling methods, high-performance software and the assessment methods and criteria for the ultimate seismic capacity of the ultra-high earth and rockfill dams are studied. The results can provide advanced assessment methods and criteria for the aseismic design of ultra-high earth and rockfill dams.

     

/

返回文章
返回