Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
Повышение достоверности оценки устойчивости оползневого склона на основе анализа данных инженерно-геологических изысканий с привлечением дополнительной геофизической информации. / Shuvalova, R. A.; Burlutsky, S. B.; Glazunov, V. V.; Жданов, Сергей Витальевич.
17th Conference and Exhibition Engineering and Mining Geophysics 2021. European Association of Geoscientists and Engineers, 2021. (Engineering and Mining Geophysics 2021).Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
}
TY - GEN
T1 - Повышение достоверности оценки устойчивости оползневого склона на основе анализа данных инженерно-геологических изысканий с привлечением дополнительной геофизической информации
AU - Shuvalova, R. A.
AU - Burlutsky, S. B.
AU - Glazunov, V. V.
AU - Жданов, Сергей Витальевич
N1 - Publisher Copyright: © Conference and Exhibition Eng. and Mining Geophysics 2021. All rights reserved.
PY - 2021/4
Y1 - 2021/4
N2 - Landslides are one of the most dangerous geological processes, they make a threat to all engineering structures. The placement of any structure within the landslide leads to its activation. To design an engineering structures on the landslide slopes, the project’s designers are using the results of a complex engineering surveys, which are necessary for calculating the stability of soil masses, as well as assessing the risks of the development of landslide processes during the construction and operation of the engineering structures. Correct calculation of the landslide slopes stability requires a detailed study of structural features, as well as the research of soil properties within the landslide massif. Although the traditional methods used in engineering and geological surveys are accurate and constantly are being improved, they have one significant drawback - these methods are based on one-dimensional interpretation of drilling data and field methods for studying soils, which does not allow engineering and geological researches of heterogeneous landslide structures with the required detail. Moreover, steep landslide slopes make it difficult to conduct drilling operations, this creates additional difficulties in studying the structural features and identifying weakened zones in the landslide massif. In contrast to 1D methods of researching the slope by drilling wells and field methods of studying the strength properties of soils, modern 2D geophysical technologies allow getting a continuous section of a landslide slope showing the main structural elements of the landslide massif and localising zones of weakened rocks. In order to assess the significance of additional information about the structure of landslides, extracted using geophysical methods, for the value of slope stability, we performed calculations of the stability of the studied landslide slope both on the basis of engineering and geological survey data and taking into account additional geophysical information.
AB - Landslides are one of the most dangerous geological processes, they make a threat to all engineering structures. The placement of any structure within the landslide leads to its activation. To design an engineering structures on the landslide slopes, the project’s designers are using the results of a complex engineering surveys, which are necessary for calculating the stability of soil masses, as well as assessing the risks of the development of landslide processes during the construction and operation of the engineering structures. Correct calculation of the landslide slopes stability requires a detailed study of structural features, as well as the research of soil properties within the landslide massif. Although the traditional methods used in engineering and geological surveys are accurate and constantly are being improved, they have one significant drawback - these methods are based on one-dimensional interpretation of drilling data and field methods for studying soils, which does not allow engineering and geological researches of heterogeneous landslide structures with the required detail. Moreover, steep landslide slopes make it difficult to conduct drilling operations, this creates additional difficulties in studying the structural features and identifying weakened zones in the landslide massif. In contrast to 1D methods of researching the slope by drilling wells and field methods of studying the strength properties of soils, modern 2D geophysical technologies allow getting a continuous section of a landslide slope showing the main structural elements of the landslide massif and localising zones of weakened rocks. In order to assess the significance of additional information about the structure of landslides, extracted using geophysical methods, for the value of slope stability, we performed calculations of the stability of the studied landslide slope both on the basis of engineering and geological survey data and taking into account additional geophysical information.
UR - http://www.scopus.com/inward/record.url?scp=85114264068&partnerID=8YFLogxK
U2 - 10.3997/2214-4609.202152022
DO - 10.3997/2214-4609.202152022
M3 - статья в сборнике материалов конференции
AN - SCOPUS:85114264068
SN - 9789462823723
T3 - Engineering and Mining Geophysics 2021
BT - 17th Conference and Exhibition Engineering and Mining Geophysics 2021
PB - European Association of Geoscientists and Engineers
T2 - Инженерная и рудная геофизика 2021
Y2 - 26 April 2021 through 30 April 2021
ER -
ID: 86062231