<trans-title>Numerical simulation analysis and evaluation of stability of the karst foundation with developed joints and fissures

LIU Ziqiang; MA Hongsheng; MOU Yunjuan

doi:10.11932/karst20220105

Volume 41 Issue 1

Feb. 2022

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LIU Ziqiang,MA Hongsheng,MOU Yunjuan.Numerical simulation analysis and evaluation of stability of the karst foundation with developed joints and fissures[J].Carsologica Sinica,2022,41(01):100-110. doi: 10.11932/karst20220105

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Numerical simulation analysis and evaluation of stability of the karst foundation with developed joints and fissures

doi: 10.11932/karst20220105

1.
Sichuan Highway Planning，Survey，Design and Research Institute ，Chengdu，Sichuan 610041，China
2.
Sichuan Academy of Social Science， Chengdu，Sichuan 610072，China

Received Date: 2020-01-10
Publish Date: 2022-02-25

Abstract

Abstract

Karst has always been a big problem troubling engineering construction， which poses a great impact on the stability of engineering foundation. Therefore， it is of great significance to find out the law of karst development and seek effective treatment methods. In order to obtain the parameters related to the stability of karst cave foundation with developed joints and fissures， this paper takes the karst cave foundation in an airport in Southwest China as the research object. Combined with the field investigation， the impact factors and development law of karst are qualitatively analyzed. It is found that there are different manifestations of surface and underground karst， mainly in the form of stone bud， karst ditch， karst trough， funnel， sinkhole， concealed stone bud， karst hole， karst crack and karst cave. Karst is obviously developed near the fold axis， which is mainly controlled by the lithology of crystalline limestone stratum and longitudinal tensile joint fissures. The karst development of crystalline limestone with complete crystallization in the northeast and siliceous limestone in the southwest is weak， and the karst development of bioclastic and fine-grained limestone in the middle is strong. Geological structure affects the development trend of karst. Surface and underground karsts are extremely developed along the fold axis with certain directionality. The long axis of karst depression and karst funnel is basically consistent with the trend of structural line， and underground karst caves also have the characteristics of centralized development along the axial line of the fold. Groundwater affects the karst development intensity， which is manifested in the area where surface water is easy to gather， and collapse and funnel are well developed. It is found that there are many factors affecting the stability of karst foundation， including joint fissure， rock strength and rock occurrence， hole shape and burial， form and size of external load， groundwater and filling in the hole， etc. Therefore， on the basis of investigation and analysis as well as the karst cave drilling profile， this paper selects the most characteristic karst cave shape and diameter， aircraft external load， building load and the optimal roof thickness according to various factors， and establishes a qualitative evaluation system to assess the stability of karst caves revealed in this study area. At the same time， the stability of single typical karst cave and multi-layer complex karst cave in the study area is simulated through ABAQUS nonlinear finite element numerical simulation calculation and quantitative analysis to discuss the influence of joint fissures on karst foundation under external load， and to evaluate the stability of karst foundation. The analysis results show that the plastic failure of karst caves mainly occurs at the parts with large tensile stress on both sides of karst caves and joint fissures. When the thickness of karst cave roof is greater than 5 m， it is stable. The analysis shows that the overall stability of karst caves in the study area is good. 275 karst caves are exposed in boreholes， and 79 are in unstable state， accounting for 33.5% of the total. The results of numerical simulation analysis are in good agreement with the results of qualitative and semi-quantitative evaluation， which shows that the semi-quantitative conclusions have good guidance and can provide strong data support for the subsequent treatment design of karst cavern foundation.
- karst,
- development law,
- foundation stability,
- ABAQUS,
- analysis,
- evaluation

LIU Ziqiang,MA Hongsheng,MOU Yunjuan.Numerical simulation analysis and evaluation of stability of the karst foundation with developed joints and fissures[J].Carsologica Sinica,2022,41(01):100-110.

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Numerical simulation analysis and evaluation of stability of the karst foundation with developed joints and fissures

doi: 10.11932/karst20220105

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