This Reprint focuses on cyclic mechanical responses and fatigue behavior of rock masses, taking full account of their inherent discontinuous structures. Rock masses are naturally characterized by various discontinuities including cleavages, foliations, beddings, laminae, joints, and faults, which govern the geomechanical properties and long¿term stability of rock engineering systems. Environmental and human¿induced loadings applied to rock masses are typically cyclic in nature, making it essential to understand how rock mass structures control deformation, damage accumulation, and fatigue failure under repeated loading. Disturbed stress fields further accelerate the deterioration of these structures, potentially triggering severe geohazards such as landslides, rock collapses, spalling, and water inrush. Complexities are amplified by differential fracturing responses under multi¿field and multi¿phase coupling conditions. This Reprint collects peer¿reviewed, high¿quality papers published in the Topic, covering experimental investigations, theoretical modeling, numerical simulations, and field observations related to the cyclic and fatigue behavior of rock masses. Contributions emphasize multi¿scale structural effects, from microcrack development to large¿scale discontinuity behavior, and address coupled hydrömechanical¿thermal¿chemical processes. By compiling these advances into a single Reprint, we offer researchers, engineers, and graduate students a comprehensive, accessible reference to support fundamental studies and hazard¿mitigation practices in rock mechanics, engineering geology, and geotechnical engineering.
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Hardcover. Etat : new. Hardcover. This Reprint focuses on cyclic mechanical responses and fatigue behavior of rock masses, taking full account of their inherent discontinuous structures. Rock masses are naturally characterized by various discontinuities including cleavages, foliations, beddings, laminae, joints, and faults, which govern the geomechanical properties and long-term stability of rock engineering systems. Environmental and human-induced loadings applied to rock masses are typically cyclic in nature, making it essential to understand how rock mass structures control deformation, damage accumulation, and fatigue failure under repeated loading. Disturbed stress fields further accelerate the deterioration of these structures, potentially triggering severe geohazards such as landslides, rock collapses, spalling, and water inrush. Complexities are amplified by differential fracturing responses under multi-field and multi-phase coupling conditions.This Reprint collects peer-reviewed, high-quality papers published in the Topic, covering experimental investigations, theoretical modeling, numerical simulations, and field observations related to the cyclic and fatigue behavior of rock masses. Contributions emphasize multi-scale structural effects, from microcrack development to large-scale discontinuity behavior, and address coupled hydro-mechanical-thermal-chemical processes. By compiling these advances into a single Reprint, we offer researchers, engineers, and graduate students a comprehensive, accessible reference to support fundamental studies and hazard-mitigation practices in rock mechanics, engineering geology, and geotechnical engineering. This item is printed on demand. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. N° de réf. du vendeur 9783725872589
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HRD. Etat : New. New Book. Shipped from UK. Established seller since 2000. N° de réf. du vendeur L2-9783725872589
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Hardcover. Etat : new. Hardcover. This Reprint focuses on cyclic mechanical responses and fatigue behavior of rock masses, taking full account of their inherent discontinuous structures. Rock masses are naturally characterized by various discontinuities including cleavages, foliations, beddings, laminae, joints, and faults, which govern the geomechanical properties and long-term stability of rock engineering systems. Environmental and human-induced loadings applied to rock masses are typically cyclic in nature, making it essential to understand how rock mass structures control deformation, damage accumulation, and fatigue failure under repeated loading. Disturbed stress fields further accelerate the deterioration of these structures, potentially triggering severe geohazards such as landslides, rock collapses, spalling, and water inrush. Complexities are amplified by differential fracturing responses under multi-field and multi-phase coupling conditions.This Reprint collects peer-reviewed, high-quality papers published in the Topic, covering experimental investigations, theoretical modeling, numerical simulations, and field observations related to the cyclic and fatigue behavior of rock masses. Contributions emphasize multi-scale structural effects, from microcrack development to large-scale discontinuity behavior, and address coupled hydro-mechanical-thermal-chemical processes. By compiling these advances into a single Reprint, we offer researchers, engineers, and graduate students a comprehensive, accessible reference to support fundamental studies and hazard-mitigation practices in rock mechanics, engineering geology, and geotechnical engineering. This item is printed on demand. Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability. N° de réf. du vendeur 9783725872589
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Hardcover. Etat : new. Hardcover. This Reprint focuses on cyclic mechanical responses and fatigue behavior of rock masses, taking full account of their inherent discontinuous structures. Rock masses are naturally characterized by various discontinuities including cleavages, foliations, beddings, laminae, joints, and faults, which govern the geomechanical properties and long-term stability of rock engineering systems. Environmental and human-induced loadings applied to rock masses are typically cyclic in nature, making it essential to understand how rock mass structures control deformation, damage accumulation, and fatigue failure under repeated loading. Disturbed stress fields further accelerate the deterioration of these structures, potentially triggering severe geohazards such as landslides, rock collapses, spalling, and water inrush. Complexities are amplified by differential fracturing responses under multi-field and multi-phase coupling conditions.This Reprint collects peer-reviewed, high-quality papers published in the Topic, covering experimental investigations, theoretical modeling, numerical simulations, and field observations related to the cyclic and fatigue behavior of rock masses. Contributions emphasize multi-scale structural effects, from microcrack development to large-scale discontinuity behavior, and address coupled hydro-mechanical-thermal-chemical processes. By compiling these advances into a single Reprint, we offer researchers, engineers, and graduate students a comprehensive, accessible reference to support fundamental studies and hazard-mitigation practices in rock mechanics, engineering geology, and geotechnical engineering. This item is printed on demand. Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability. N° de réf. du vendeur 9783725872589
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Vendeur : AHA-BUCH GmbH, Einbeck, Allemagne
Buch. Etat : Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - This Reprint focuses on cyclic mechanical responses and fatigue behavior of rock masses, taking full account of their inherent discontinuous structures. Rock masses are naturally characterized by various discontinuities including cleavages, foliations, beddings, laminae, joints, and faults, which govern the geomechanical properties and long¿term stability of rock engineering systems. Environmental and human¿induced loadings applied to rock masses are typically cyclic in nature, making it essential to understand how rock mass structures control deformation, damage accumulation, and fatigue failure under repeated loading. Disturbed stress fields further accelerate the deterioration of these structures, potentially triggering severe geohazards such as landslides, rock collapses, spalling, and water inrush. Complexities are amplified by differential fracturing responses under multi¿field and multi¿phase coupling conditions.This Reprint collects peer¿reviewed, high¿quality papers published in the Topic, covering experimental investigations, theoretical modeling, numerical simulations, and field observations related to the cyclic and fatigue behavior of rock masses. Contributions emphasize multi¿scale structural effects, from microcrack development to large¿scale discontinuity behavior, and address coupled hydrömechanical¿thermal¿chemical processes. By compiling these advances into a single Reprint, we offer researchers, engineers, and graduate students a comprehensive, accessible reference to support fundamental studies and hazard¿mitigation practices in rock mechanics, engineering geology, and geotechnical engineering. N° de réf. du vendeur 9783725872589
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