Research on High Arch Dam Failure Probability Based on Failure Mode

In order to overcome the weakness in traditional high arch dam safety evaluation without considering the randomness, failure mode and risk analysis, it is proposed to apply three indexes namely failure probability, economic loss and life loss to high arch dam safety evaluation. On the basis of the analysis of accidents and on-site measured data, expert discussion as well as analytical analogy and by means of Fault Tree Analysis, a probe is made into the four major failure modes and the causes of high arch dam failure, namely destabilization collapse, shear-slipping collapse, excess cracking and man-caused destruction. Based on the calculating of the probability of high arch dam shearing-slipping failure, the computational method and procedures are established by means of Second Moment Method for the calculation of the occurrence probability of the major failure modes of high arch dam. A study is made of the degree of correlation between the major failure modes and of the method for calculating the high arch dam failure probability under multi-failure-modes.

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Reasonable Strength Criterion Research of High Arch Dam Based on Brittle Failure Constitutive Relation

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.578-579.964 ◽

2014 ◽

Vol 578-579 ◽

pp. 964-967

Author(s):

Zhi Qiang Wang ◽

Wen Biao Liu

Keyword(s):

Constitutive Relation ◽

Brittle Failure ◽

Concrete Strength ◽

Safety Evaluation ◽

Strength Criterion ◽

Arch Dam ◽

Dam Failure ◽

Dam Safety ◽

High Arch Dam ◽

Triaxial Strength

The brittle failure finite element method is widely used in arch dam safety evaluation, but it also has some problems, the concrete strength criterion is different, the dam failure range is different. This article first introduces brittle failure constitutive relation and three strength criterions, then takes a high arch dam as an example to compute, obtains some conclusions that the relative failure range of foundation plane corresponds to blaxial strength criterion is slightly bigger than the result of uniaxial strength criterion, is almost the same as the result of triaxial strength criterion. Because the influence of the third principal stress is compressed stress to the dam crack is taken into account under multiaxial strength criterion, therefore using multiaxial strength criterion is more reasonable.

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Seismic fragility analysis of a High Arch Dam-Foundation System based on seismic instability failure mode

Soil Dynamics and Earthquake Engineering ◽

10.1016/j.soildyn.2019.105981 ◽

2020 ◽

Vol 130 ◽

pp. 105981 ◽

Cited By ~ 2

Author(s):

Hui Liang ◽

Jin Tu ◽

Shengshan Guo ◽

Jianxin Liao ◽

Deyu Li ◽

...

Keyword(s):

Failure Mode ◽

Arch Dam ◽

Fragility Analysis ◽

Seismic Fragility ◽

High Arch Dam ◽

Dam Foundation

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Cracking Behavior of a Concrete Arch Dam with Weak Upper Abutment

Mathematical Problems in Engineering ◽

10.1155/2017/6541975 ◽

2017 ◽

Vol 2017 ◽

pp. 1-13 ◽

Cited By ~ 1

Author(s):

Lei Xu ◽

Shuaizhao Jing ◽

Jie Liu ◽

Yefei Huang

Keyword(s):

Mechanical Properties ◽

Sensitivity Analysis ◽

Failure Mode ◽

Arch Dam ◽

Dam Failure ◽

Crack Model ◽

Cracking Behavior ◽

Concrete Arch Dam ◽

Smeared Crack ◽

Smeared Crack Model

The cracking behavior and failure mode of a 78 m high concrete double-curvature arch dam with weak upper abutment are investigated through performing cracking analysis. The mechanical behavior of concrete is simulated using a smeared crack model, in which a combination of the compression yield surface and the crack detection surface with a damaged elasticity concept is employed to describe the failure of concrete. The arch dam with practical mechanical properties of the upper and lower abutments is firstly studied with emphasis on its cracking behavior during overloading. Then, a comprehensive sensitivity analysis is carried out to investigate the influence of the ratio of the mechanical properties of upper abutment to those of lower abutment on dam failure with prime attention placed on the failure mode. Simulation results indicate the adopted smeared crack model is well-suited to the crack analysis of concrete arch dam. It is shown that cracking is localized around the interface between upper and lower abutments, which leads to a fast crack growth in the through-thickness direction of dam and finally causes the dam failure. Furthermore, the sensitivity analysis presents three types of failure modes corresponding to different ratio value, wherein Modes II and III should be avoided since the weak upper abutment plays a predominant role in the cracking and failure of concrete arch dam.

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Study of Risk Evaluation System of High Arch Dam Based on Failure Mechanism

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.417-418.541 ◽

2009 ◽

Vol 417-418 ◽

pp. 541-544

Author(s):

Zai Tie Chen

Keyword(s):

Risk Evaluation ◽

Evaluation System ◽

Failure Modes ◽

Quantitative Estimation ◽

Arch Dam ◽

Dam Failure ◽

High Arch Dam ◽

Arch Dams ◽

Risk Evaluation System ◽

High Arch Dams

In view of the randomness in terms of high arch dam load, resistance and failure calamity loss as well as the fuzziness in terms of evaluation conclusion, a high arch dam risk evaluation system is established by means of risk analysis method. Natural factors, structural factors and human factors that lead to high arch dam failure are summed up on the basis of statistics. Through qualitative analysis coupled with quantitative estimation, it is determined that high arch dams generally involve five major failure modes: abutment rock mass destabilization, excess cracking, arch dam & dam foundation entire destabilization, extreme dam-overflow and destabilization of dam body along base plane. The state functions of individual major failure modes are established. An approach is made to the correlativity among the major failure modes and among the random variables within individual failure modes, and it is suggested that risk rate, economic loss risk value and life loss risk value should be used to assess the risk of high arch dams. A certain high arch dam abutment instability risk evaluation has been provided.

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Risk-Based Research on Failure Mode of High-Arch Concrete Dam

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.385-387.269 ◽

2008 ◽

Vol 385-387 ◽

pp. 269-272 ◽

Cited By ~ 1

Author(s):

Zai Tie Chen

Keyword(s):

Failure Mode ◽

Failure Modes ◽

Safety Evaluation ◽

Arch Dam ◽

State Function ◽

High Arch Dam ◽

Arch Dams ◽

Disaster Loss ◽

Explosion Load ◽

High Arch Dams

Risk analysis can overcome the weakness of conventional safety evaluation of high-arch dams where the random nature of the load and resistance effect are ignored and the failure mode and failure disaster loss are not taken into account. On the basis of statistical analysis of the data of the failure arch dams and faulty and perilous arch dams in the world, it is deduced that the failure of high arch dam is mainly caused by super elevation floods, highly intense earthquakes, mountain landslides, abnormal temperature variation, explosion load, etc. Five major failure modes for high arch dams are suggested, namely dam abutment rock instability, fundamental plane instability, entire entity instability, excess cracking and extreme dam overflow. Based on the study of the failure mechanism of the major failure modes, a state function is established to calculate the failure probability of the major failure modes. An approach is developed to obtain the statistical quantity and the regularities of distribution of the load and resistance random variables.

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Research on concrete temperature control measures in deep hole area of super high arch dam

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/826/1/012035 ◽

2021 ◽

Vol 826 (1) ◽

pp. 012035

Author(s):

Yuchen Fu ◽

Yaosheng Tan ◽

Chunfeng Liu ◽

Lei Pei ◽

Yajun Wang ◽

...

Keyword(s):

Temperature Control ◽

Arch Dam ◽

Control Measures ◽

Deep Hole ◽

High Arch Dam ◽

Hole Area ◽

Concrete Temperature

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Analysis of the influence of asymmetric geological conditions on stability of high arch dam

Science and Engineering of Composite Materials ◽

10.1515/secm-2021-0043 ◽

2021 ◽

Vol 28 (1) ◽

pp. 426-436

Author(s):

Zelin Ding ◽

Xuanyi Zhu ◽

Hongyang Zhang ◽

Hanlin Ban ◽

Yuan Chen

Keyword(s):

Safety Factor ◽

Negative Impact ◽

Decisive Role ◽

Arch Dam ◽

Test Method ◽

Stable Operation ◽

High Arch Dam ◽

Reinforcement Scheme ◽

Structural Plane ◽

Geological Conditions

Abstract Geological conditions play a decisive role in the stability of arch dam engineering, and the asymmetric geological conditions of the abutment have a very negative impact on the safety of the arch dam. This article takes Lizhou arch dam as the research object, and determines that the arch dam is preliminarily affected by the geological asymmetric characteristics. Through the geomechanical model test method, the overload failure test of the Lizhou arch dam was carried out, and the resistance body, the instability deformation of the structural plane of the two dam abutments, and the influence of each structural plane on the dam body are obtained, and the safety factor is determined. According to the test results under the condition of asymmetric foundation of arch dam, for the structural plane which affects the geological asymmetry of the arch dam, the corresponding reinforcement measures are carried out. The feasibility of the reinforcement scheme is verified by the finite element method, and the safety factor after reinforcement is obtained. According to the results, it is suggested that some engineering measures can be taken to reduce the geological asymmetry between the two banks and ensure the safe and stable operation of the arch dam in the future.

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