Incubation Time Based Fracture Mechanics and Optimization of Energy Input in the Fracture Process of Rocks. / Petrov, Y.; Bratov, V.; Volkov, G.; Dolmatov, E.
Advances in Rock Dynamics and Applications. Taylor & Francis, 2011. p. 510 стр., 163-183.Research output: Chapter in Book/Report/Conference proceeding › Chapter › Research
}
TY - CHAP
T1 - Incubation Time Based Fracture Mechanics and Optimization of Energy Input in the Fracture Process of Rocks
AU - Petrov, Y.
AU - Bratov, V.
AU - Volkov, G.
AU - Dolmatov, E.
PY - 2011
Y1 - 2011
N2 - The study of rock dynamics is important because many rock mechanics and rock engineering problems involve dynamic loading ranging from earthquakes to vibrations and explosions. The subject deals with the distribution and propagation of loads, dynamic responses and processes of rocks and rate-dependent properties, coupled with the physical environment. Rock dynamics has a wide range of applications in civil, mining, geological and environmental engineering. However, due to the additional “4th” dimension of time, rock dynamics remains, in the discipline of rock mechanics, a relatively more challenging topic to understand and to apply, where documented research and knowledge are limited. Advances in Rock Dynamics and Applications provides a summary of the current knowledge of rock dynamics with 18 chapters contributed by individual authors from both academia and engineering fields. The topics of this book are wide-ranging and representative, covering fundamental theories of fracture dynamics and wave
AB - The study of rock dynamics is important because many rock mechanics and rock engineering problems involve dynamic loading ranging from earthquakes to vibrations and explosions. The subject deals with the distribution and propagation of loads, dynamic responses and processes of rocks and rate-dependent properties, coupled with the physical environment. Rock dynamics has a wide range of applications in civil, mining, geological and environmental engineering. However, due to the additional “4th” dimension of time, rock dynamics remains, in the discipline of rock mechanics, a relatively more challenging topic to understand and to apply, where documented research and knowledge are limited. Advances in Rock Dynamics and Applications provides a summary of the current knowledge of rock dynamics with 18 chapters contributed by individual authors from both academia and engineering fields. The topics of this book are wide-ranging and representative, covering fundamental theories of fracture dynamics and wave
KW - State-of-the-art research progress in rock dynamics
KW - Hopkinson pressure bar techniques
KW - Testing of rock dynamic properties
KW - Rock penetration
KW - Rock fracture dynamics
KW - Wave propagation across rock joints
KW - Failure mechanisms
KW - FEM modeling of rock dynamic failure and earthquake ground motion
KW - Discontinuum based numerical modeling of rock dynamic fracturing and failure
KW - Numerical techniques
KW - Earthquakes as a rock dynamic problem
KW - Numerical analysis of structural seismic failures
KW - Explosion loading and tunnel response
KW - Rock bolts for tunnel support.
U2 - 10.1201/b11077-9
DO - 10.1201/b11077-9
M3 - Chapter
SN - 978-0-415-61351-4
SP - 510 стр., 163-183
BT - Advances in Rock Dynamics and Applications
PB - Taylor & Francis
ER -
ID: 4580310