Rock fracture and blasting : theory and applications /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Zhang, Zong-Xian (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford, UK : Butterworth-Heinemann, an imprint of Elsevier, [2016]
Temas:
Rocks > Fracture.
Blasting.
Rock mechanics.
Mécanique des roches.
TECHNOLOGY & ENGINEERING > Civil > General.
Blasting
Rock mechanics
Rocks > Fracture
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; Dedication; About the Author; Preface; Part I
  • Stress Waves and Shock Waves; Chapter 1
  • Stress Waves; 1.1
  • Coordinates, wave velocity, and particle velocity; 1.1.1
  • Coordinates; 1.1.2
  • Wave Velocity and Particle Velocity; 1.2
  • Category of stress waves in solids; 1.2.1
  • Body Waves; 1.2.1.1
  • P-Waves; 1.2.1.2
  • S-Waves; 1.2.2
  • Surface Waves; 1.2.2.1
  • Rayleigh Waves; 1.2.2.2
  • Love Waves; 1.2.2.3
  • Stoneley Waves; 1.2.3
  • Stress Waves Relevant to Stress-Strain Relation of Materials; 1.2.3.1
  • Elastic Waves; 1.2.3.2
  • Plastic Waves.
  • 1.2.3.3
  • Shock Waves1.2.4
  • Other Names of Waves; 1.2.4.1
  • Seismic Waves and Vibration Waves; 1.2.4.2
  • Taylor Waves, Rarefaction Waves, and Unloading Waves; 1.3
  • Reflection and transmission of elastic waves; 1.3.1
  • Reflection of Elastic Waves on a Free Surface; 1.3.1.1
  • A P-Wave Incident on a Free Surface; 1.3.1.2
  • An S-Wave Incident on a Free Surface; 1.3.2
  • Reflection and Transmission of Elastic Waves at an Interface Between Two Media; 1.3.2.1
  • Reflection and Transmission of an Incident P-Wave on a Plane Interface.
  • 1.3.2.2
  • Reflection and Transmission of an Incident S-Wave on a Plane Interface1.3.3
  • Stress Waves from Rock Blasting; 1.4
  • Theory of one-dimensional elastic stress waves; 1.4.1
  • Wave Equation in One-Dimensional Condition; 1.4.2
  • Solution of Wave Equation; 1.5
  • Stress wave analysis using a Lagrangian diagram; 1.5.1
  • Lagrangian Diagram for Elastic Waves; 1.5.2
  • Lagrangian Diagram for Elastic-Plastic Loading Waves; 1.6
  • Impact of two elastic bars; 1.6.1
  • General Case; 1.6.2
  • Special Cases; 1.6.2.1
  • Case 1: An Elastic Bar Impacts on a Rigid Wall.
  • 1.6.2.2
  • Case 2: A Rigid Bar Impacts on an Elastic Bar1.6.2.3
  • Case 3: An Elastic Bar Impacts Another Elastic Bar Which Stands Still; 1.6.2.4
  • Case 4: A Hard Bar Impacts a Soft Bar; 1.6.2.5
  • Case 5: A Soft Bar Impacts a Hard Bar; 1.7
  • Energy in an impact system; 1.7.1
  • Relation Between Kinetic Energy and Strain Energy; 1.7.2
  • Energy Transmission; 1.8
  • Propagation of elastic waves in two different materials; 1.8.1
  • General Case; 1.8.2
  • Special Cases; 1.8.2.1
  • A Stress Wave Propagates from a Soft to a Hard Material; 1.8.2.2
  • A Stress Wave Propagates from a Hard to a Soft Material.
  • 1.9
  • Wave reflection on a rigid wall and on a free surface1.9.1
  • On a Rigid Wall; 1.9.2
  • On a Free Surface; 1.10
  • Propagation of elastic waves in three different materials; 1.11
  • Superposition of elastic stress waves; 1.11.1
  • Superposition of Two Compressive Elastic Stress Waves; 1.11.2
  • Superposition of One Tensile Wave and One Compressive Wave; 1.11.3
  • Superposition of Two P-Waves from Two Blastholes; 1.12
  • Spalling caused by stress wave loading; 1.12.1
  • A Triangular Wave Reflected from a Free Surface; 1.12.2
  • Spalling Caused by a Triangular Wave.
  • 1.13
  • Split Hopkinson pressure bar system.

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