岩石力学与工程学报
巖石力學與工程學報
암석역학여공정학보
CHINESE JOURNAL OF ROCK MECHANICS AND ENGINEERING
2009年
z2期
3309-3324
,共16页
边坡工程%破坏形式%滑坡稳定性%极限平衡法%有限元法%离散元法%地表裂缝%监测结果
邊坡工程%破壞形式%滑坡穩定性%極限平衡法%有限元法%離散元法%地錶裂縫%鑑測結果
변파공정%파배형식%활파은정성%겁한평형법%유한원법%리산원법%지표렬봉%감측결과
slope engineering%failure type%landslide stability%limit equilibrium method(LEM)%finite element method%discrete element method(DEM)%surface cracks%monitoring results
以地质体的渐进、动态破坏为基本出发点,对滑坡的稳定性问题进行较为系统的讨论.通过具体滑坡现象和模型试验说明研究滑坡问题的复杂性;按照山体的破坏程度,划分包括既有破坏、局部再破坏、贯穿性破坏、离散性破坏和运动性破坏几种破坏形式,说明破坏类型的转化正是山体渐进破坏的过程;综合分析极限平衡法、有限元法、离散元法分析边坡稳定性的局限性;详细介绍基于连续介质的离散元法的特点;建议将滑坡体地表裂缝作为参数分析的基本参量;阐述分析运动性破坏的重要性;特别强调单纯靠计算方法不能解决工程问题,将计算模型与现场监测结果分析相结合,是正确判断山体当前状态、分析滑坡稳定性的有效途径.
以地質體的漸進、動態破壞為基本齣髮點,對滑坡的穩定性問題進行較為繫統的討論.通過具體滑坡現象和模型試驗說明研究滑坡問題的複雜性;按照山體的破壞程度,劃分包括既有破壞、跼部再破壞、貫穿性破壞、離散性破壞和運動性破壞幾種破壞形式,說明破壞類型的轉化正是山體漸進破壞的過程;綜閤分析極限平衡法、有限元法、離散元法分析邊坡穩定性的跼限性;詳細介紹基于連續介質的離散元法的特點;建議將滑坡體地錶裂縫作為參數分析的基本參量;闡述分析運動性破壞的重要性;特彆彊調單純靠計算方法不能解決工程問題,將計算模型與現場鑑測結果分析相結閤,是正確判斷山體噹前狀態、分析滑坡穩定性的有效途徑.
이지질체적점진、동태파배위기본출발점,대활파적은정성문제진행교위계통적토론.통과구체활파현상화모형시험설명연구활파문제적복잡성;안조산체적파배정도,화분포괄기유파배、국부재파배、관천성파배、리산성파배화운동성파배궤충파배형식,설명파배류형적전화정시산체점진파배적과정;종합분석겁한평형법、유한원법、리산원법분석변파은정성적국한성;상세개소기우련속개질적리산원법적특점;건의장활파체지표렬봉작위삼수분석적기본삼량;천술분석운동성파배적중요성;특별강조단순고계산방법불능해결공정문제,장계산모형여현장감측결과분석상결합,시정학판단산체당전상태、분석활파은정성적유효도경.
Landslide stability is analyzed systematically based on progressive and dynamic failure of geological media. It is very complex to study the landslide according to specific phenomena and model tests. According to the damage degree of the mountains,the failure can be divided into several types,including intrinsic failure,partial re-failure, run-through failure,discrete failure and motive failure. The transition of the failure type is the process of the gradual failure of the mountains. The limitations of the limit equilibrium method,the finite element method and the discrete element method in analyzing the slope stability are analyzed comprehensively. The characteristics of the continuum-based discrete element method are introduced in detail. Landslide surface cracks should be considered as a basic parameter for analyzing landslide stability. The importance of study on motive failure is then described. It is specially emphasized that the engineering problems cannot be solved only leaning on the numerical simulation,and as a result,the effective approach to estimate the condition of mountains and to analyze the landslide stability should combine calculation models and monitoring results together.