Rock Friction and Earthquake Prediction

Inhaltsverzeichnis

• Editors’ Note.
• A Review of Rock Mechanics Studies in the United States Pertinent to Earthquake Prediction.
• Volume Changes During Fracture and Frictional Sliding: A Review.
• Friction of Rocks.
• A Note on Permeability Changes in Geologic Material Due to Stress.
• The Effect of Water on Stress Relaxation of Faulted and Unfaulted Sandstone.
• Mineralogy and Physical Nature of Clay Goug.
• Rock Friction-Effect of Confing Pressure, Temperature, and Pore Pressure.
• Aspects of Asperity-Surface Interaction and Surface Damage of Rocks during Experimental Frictional Sliding.
• Electrical Resistivity Changes in Rocks During Frictional Sliding and Fracture.
• Seismic Velocity Changes during Fracture and Frictional Sliding.
• Dilatancy and Fracture Induced Velocity Changes in Rock and their Relation to Frictional Sliding.
• Velocity Anomalies: An Alternative Explanation Based on Data from Laboratory Experiments.
• Creep, Stable Sliding, and Premonitory Slip.
• Time-Dependent Friction and the Mechanics of Stick-Slip.
• Transient Creep and Semibrittle Behavior of Crystalline Rocks.
• Effect of Displacement Rate on the Real Area of Contact and Temperatures Generated During Frictional Sliding of Tennessee Sandstone.
• Fracture Surface Energy of Olivine.
• Fault and System Stiffnesses and Stick-Slip Phenomena.
• Experimental Observations of Elastic Wave Radiation Characteristics from Tensile Cracks and Pre-existing Shear Faults.
• Model Studies of Shear Displacement along a Pre-existing Fault.
• Small Faults Formed as Deformation Bands in Sandstone.
• Development of Faults as Zones of Deformation Bands and as Slip Surfaces in Sandstone.
• Propagation of Slip along Frictional Surfaces.
• Rupture and Particle Velocity During Frictional Sliding.
• Nonuniform Friction as a Physical Basis for EarthquakeMechanics.
• Comments to “Nonuniform Friction as a Physical Basis for Earthquake Mechanics” by A. Nur.