TY - JOUR
T1 - Stability analysis of infinite rock slopes with varying disturbances based on the Hoek–Brown failure criterion
AU - Park, Dowon
N1 - Publisher Copyright:
© 2023 Techno-Press, Ltd.
PY - 2023/4/10
Y1 - 2023/4/10
N2 - Rock disturbance caused by blasting and stress relaxation is commonly observed during excavation. As the distance from the source of disturbance increases, the degree of disturbance decreases, and rock at a large depth does not experience disturbance. However, in stability analyses, a single value of disturbance is often applied to the entire rock mass, which leads to underestimated results. In this study, this modeling mistake is addressed by considering realistically varying rock disturbance. The safety of infinite slopes in a disturbed rock mass with a strength governed by the Hoek–Brown failure criterion is investigated based on the kinematic approach of limit analysis. The maximum disturbance is assigned to the outermost slope face because it is directly exposed to blasting damage and dilation, and the disturbance progressively decays with distance in the rock mass. The safety analysis results indicate that the assumption of uniform disturbance in the entire rock mass leads to underestimation of the rock strength and safety on infinite rock slopes. A critical slip surface appears to be within the disturbed rock layer as well as the interface between the disturbed upper rock and undisturbed lower rock.
AB - Rock disturbance caused by blasting and stress relaxation is commonly observed during excavation. As the distance from the source of disturbance increases, the degree of disturbance decreases, and rock at a large depth does not experience disturbance. However, in stability analyses, a single value of disturbance is often applied to the entire rock mass, which leads to underestimated results. In this study, this modeling mistake is addressed by considering realistically varying rock disturbance. The safety of infinite slopes in a disturbed rock mass with a strength governed by the Hoek–Brown failure criterion is investigated based on the kinematic approach of limit analysis. The maximum disturbance is assigned to the outermost slope face because it is directly exposed to blasting damage and dilation, and the disturbance progressively decays with distance in the rock mass. The safety analysis results indicate that the assumption of uniform disturbance in the entire rock mass leads to underestimation of the rock strength and safety on infinite rock slopes. A critical slip surface appears to be within the disturbed rock layer as well as the interface between the disturbed upper rock and undisturbed lower rock.
KW - Hoek–Brown failure criterion
KW - infinite slope
KW - limit analysis
KW - rock disturbance
KW - rock slope stability
UR - http://www.scopus.com/inward/record.url?scp=85153708332&partnerID=8YFLogxK
U2 - 10.12989/gae.2023.33.1.053
DO - 10.12989/gae.2023.33.1.053
M3 - Article
AN - SCOPUS:85153708332
SN - 2005-307X
VL - 33
SP - 53
EP - 63
JO - Geomechanics and Engineering
JF - Geomechanics and Engineering
IS - 1
ER -