Analysis of shaft lining stress state in anhydrite-rock salt transition zone

Karasev, Maxim; Protosenya, Anatoly G.; Katerov, A.M.; Petrushin, V.V.

doi:10.17794/rgn.2022.1.13

Cited by 3 publications

(2 citation statements)

References 6 publications

(7 reference statements)

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“…Оценка напряженнодеформированного состояния горного массива основывается на математическом моделировании [8]. В работе [9] выполнен прогноз напряженно-деформированного состояния комбинированной крепи шахтного ствола, расположенного на границе двух геологических разностей. Поставленную задачу решали на основе численного моделирования в пространственной постановке.…”

Section: Introductionunclassified

Data processing in full-scale in-situ stress testing by overcoring

Belyakov¹,

Морозов²,

Emel'Yanov³

2023

gzh

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Представлена методика обработки данных полевых испытаний по оценке естественного напряженного состояния горного массива методом кольцевой разгрузки, включающая в себя многовариантное численное моделирование и аналитический расчет. Основную задачу многовариантного численного моделирования -получение зависимостей смещений и деформаций стенок измерительной скважины -решают в пространственной постановке с использованием упругой модели поведения горного массива. Аналитический расчет проводят в рамках законов теории упругости.

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Section: Introductionunclassified

Data processing in full-scale in-situ stress testing by overcoring

Belyakov¹,

Морозов²,

Emel'Yanov³

2023

gzh

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show abstract

“…На данном этапе развития информационных технологий во многих областях активно применяют моделирование как способ построения максимально приближенного к реальности объекта или процесса, как правило, для целей дальнейшего анализа [10][11][12].…”

Section: Introductionunclassified

Determination procedure of linear parameters of movement processes from digital terrain models in Khibiny apatite–nepheline ore mining

Zherlygina,

Mustafin,

Vasiliev

et al. 2023

gzh

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Surveying of ground and underground movements aims to determine and adjust the displacement parameters, and the type and size of deformation of undermined objects. The authors describe application of digital terrain models to assess movement process parameters as a case-study of Khibiny apatite-nepheline ore mining. The possibility to determine linear parameters of movements in the ground surface area inaccessible using classical methods is illustrated. The source information was the aerial laser scanning data obtained in 2015 to 2020 in Rasvumchorr and Kukisvumchorr Mines. The data were classified using TerraSolid TerraScan tools. Then, the digital terrain models were constructed in Microstation. The further digital modeling of the terrain was carried out in Golden Software's Surfer with spatial resolution and some spatial interpolation techniques. Using the resultant digital models, the surfaces were constructed in Autodesk AutoCAD. The surfaces were used to draw cross-sections in the coordinate grid in Rhinoceros 6. Over the observation period from 2015 to 2020, by the authors' opinion, the method of kriging proved to be the best out of the methods tested in Rasvumchorr and Kukisvumchorr Mines. The method of spatial interpolation provided the least scatter of data, the lowest minimum and maximum deviations and the least mean square deviation in the majority of tests. The research findings allow expecting that the described methods can enable safe mining at the minimum time consumption.

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Information support for geomechanical calculations of stability of the undermined rock mass with a complex tectonic structure

Baryakh,

Sanfirov,

Dyakonov

et al. 2024

Russian Journal of Earth Sciences

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Using the example of the Tyubegatan potash deposit (Uzbekistan), a complex of geophysical and geomechanical safety assurance for mining operations in conditions of the complex tectonic structure of the undermined rock mass is considered. Geophysical research included ground-based seismic surveys using a profile system in combination with «light» standard electro- and gravimetric techniques. Based on the results of these works, a physical and geological model of the deposit areas was built with the weakened zones and faults localization. As part of the meaningful interpretation, the physical and geological model was transformed into a geomechanical calculation scheme, which reflected the main mining-geological and mining-technical condition of development and was based on a model of elastoplastic deformation of salt rocks. The geomechanical model was calibrated from radar interferometric surveys. The time factor was taken into account in accordance with the developed modification of the well-known method of variable deformation modules. The formation of plasticity zones in physical terms was identified with the formation of fracturing areas in the water protection layer, which determine the danger of violating its continuity. Numerical implementation of the geomechanical model using the finite element method made it possible to substantiate the optimal parameters of the chamber development system, ensuring the safety of the water protection layer, including fault zones.

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Analysis of shaft lining stress state in anhydrite-rock salt transition zone

Cited by 3 publications

References 6 publications

Data processing in full-scale in-situ stress testing by overcoring

Data processing in full-scale in-situ stress testing by overcoring

Determination procedure of linear parameters of movement processes from digital terrain models in Khibiny apatite–nepheline ore mining

Information support for geomechanical calculations of stability of the undermined rock mass with a complex tectonic structure

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