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首页工业技术矿业工程断续裂隙岩石材料强度破坏与裂纹演化特性(英文版)

断续裂隙岩石材料强度破坏与裂纹演化特性(英文版)

作者:杨圣齐 著 出版社:科学出版社 出版时间:2015年11月 

ISBN: 9787030448606
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EUR €89.99

类别: 矿业工程 SKU:5c23a9b9421aa985877a9688 库存: 有现货
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描述

开 本: 16开纸 张: 胶版纸包 装: 精装是否套装: 否国际标准书号ISBN: 9787030448606丛书名: 岩石力学与工程研究著作丛书

编辑推荐
  从事土木工程结构抗震的研究人员及工程设计人员。 
内容简介
  天然岩石通常包括许多不同种类的缺陷,如裂隙、节理、弱面等,这些缺陷对岩石材料的强度、变形及其裂纹扩展特征有着重要的影响。为了深入理解断续结构岩体的破坏机理,《断续裂隙岩石材料强度破坏与裂纹演化特性(英文版)》采用试验和数值方法,系统研究了含不同预制裂隙分布(包括:单裂隙、双裂隙、叁裂隙以及混合缺陷)的脆性岩石强度、变形及其裂纹扩展特性。
目  录
 1 Introduction
  1.1 Experimental Studies for Rock-Like Materials
  1.2 Experimental Studies for Real Rock Materials
  1.3 Numerical Studies for Crack Evolution Behavior
  1.4 Study of Fracture Coalescence Behavior by AE Technique
  1.5 Main Contents in This Book
  References
2 Experimental Investigation on Strength Failure
  and Crack Evolution Behavior of Brittle Sandstone
  Containing a Single Fissure
  2.1 Experimental Studies
    2.1.1 Sandstone Material
    2.1.2 Preparation for Specimen with Single Fissure
    2.1.3 Experimental Equipment and Procedure
  2.2 Strength and Deformation Behavior
    2.2.1 Uniaxial Stress-Strain Curves of Sandstone
    2.2.2 Effect of Single Fissure Geometry on Mechanical
    Parameters of Sandstone
  2.3 Crack Evolution Behavior
    2.3.1 Crack Coalescence Type of Sandstone Specimens
    Containing a Single Fissure
    2.3.2 AE Behaviors of Intact and Flawed Sandstone
    Specimens with Single Fissure Geometries
    2.3.3 Real-Time Crack Evolution Process of Sandstone
    Containing a Single Fissure
  2.4 Conclusions
  References
3 Experimental Investigation on Crack Evolution Behavior
  of Brittle Sandstone Containing Two Coplanar Fissures
  in the Process of Deformation Failure
  3.1 Experimental Material and Procedure
    3.1.1 Physical Behavior of Tested Specimens
    3.1.2 Specimens Containing Two Coplanar Fissures
    3.1.3 Testing Equipment and Procedure
  3.2 Influence of Coplanar Fissure Angle on Strength
    and Deformation Behavior
    3.2.1 Deformation Failure Behavior of Intact Sandstone
    Specimen
    3.2.2 Deformation Failure Behavior of Flawed Sandstone
    with Two Coplanar Fissures
    3.2.3 Relationship Between Coplanar Fissure Angle
    and Mechanical Parameters
  3.3 Crack Initiation and Coalescence Behavior Analysis
    3.3.1 Crack Coalescence Type of Sandstone Containing
    Two Coplanar Fissures
    3.3.2 Crack Initiation and Coalescence Behavior
    of Pre-fissured Sandstone
  3.4 Conclusions
  References
4 Experimental Investigation on Fracture Evolution
  Behavior of Brittle Sandstone Containing Three Fissures
  4.1 Specimen Preparation and Testing Procedure
    4.1.1 Sandstone Material and Specimen Preparation
    4.1.2 Testing Procedure
  4.2 Analysis of Experimental Results
    4.2.1 Axial Stress-Strain Curve of Intact Specimen
    4.2.2 Axial Stress-Strain Curve of Flawed Specimens
    Containing Three Fissures
  4.3 Crack Initiation Mode and Analysis of the Coalescence Process ..
    4.3.1 Crack Initiation Mode and Stress Analysis
    4.3.2 Real-Time Crack Coalescence Process of Specimens
    for 132 = 75~ and 90~.
    4.3.3 Real-Time Crack Coalescence Process
    of Sandstone Specimens Containing Three
    Fissures (132 —- 105~ and 120~)
  4.4 Crack Coalescence Type and Strain Evolution Analysis
    4.4.1 Crack Coalescence Type Analysis
    4.4.2 Strain Evolution Analysis
  4.5 Conclusions
  References
5 Experimental Investigation on Fracture Coalescence Behavior
  of Red Sandstone Containing Two Unparallel Fissures
  5.1 Experimental Material and Loading Procedure
    5.1.1 Experimental Material and Specimen Preparation
    5.1.2 Loading Procedure and AE Monitoring
  5.2 Strength and Deformation Behavior
    5.2.1 Axial Stress-Axial Strain Behavior
    5.2.2 Strength and Deformation Parameters
  5.3 Cracking Mode and Characteristics
  5.4 Crack Coalescence Process and AE Behavior
  5.5 Conclusions
  References
6 Discrete Element Modeling on Fracture Coalescence Behavior
  of Red Sandstone Containing Two Unparallel Fissures
  6.1 Discrete Element Modeling Method
    6.1.1 Micro-Bond Model
    6.1.2 Numerical Specimen
    6.1.3 Simulation Procedure
  6.2 Confirmation for Micro-Parameters of Red Sandstone
    6.2.1 Confirming Method for Micro-Parameters
    of Red Sandstone
    6.2.2 Calibrating Micro-parameters by Experimental
    Results of Intact Specimen
  6.3 Numerical Results of Red Sandstone Containing Two
    Unparallel Fissures
    6.3.1 Strength and Deformation Behavior
    6.3.2 Cracking Characteristics
  6.4 Stress Field in Red Sandstone Containing Two
    Unparallel Fissures
  6.5 Conclusions
  References
7 Fracture Mechanical Behavior of Red Sandstone Containing
  a Single Fissure and Two Parallel Fissures After Exposure
  to Different High-Temperature Treatments
  7.1 Rock Material and Testing Procedure
    7.1.1 , The Experimental Material and Heating Procedure
    7.1.2 Specimen Preparation and Fissure Geometry
    7.1.3 Testing Procedure and AE Monitoring
  7.2 Strength and Deformation Behavior
  7.3 Fracture Evolution Behavior
  7.4 Interpretation and Discussion
  7.5 Conclusions
  References
8 Experimental Investigation on Strength and Failure Behavior
  of Pre-cracked Marble Under Conventional Triaxial Compression.
  8.1 Experimental Methodology
    8.1.1 Marble Material
    8.1.2 Pre-cracked Sample Preparation
    8.1.3 Experimental Procedure
  8.2 Triaxial Experimental Results of Pre-cracked Marble
    8.2.1 Brittle-Ductile Transition Mechanism of Intact Marble…
    8.2.2 Triaxial Stress-Strain Curves of Pre-cracked Marble
  8.3 Strength Behavior of Pre-cracked Marble
    8.3.1 Strength Behavior in Accordance with Mohr-Coulomb
    Criterion
    8.3.2 Strength Behavior in Accordance with Hoek-Brown
    Criterion
    8.3.3 A New Evaluation Criterion Based on Optimal
    Approximation Polynomial Theory
  8.4 Failure Mode of Pre-cracked Marble
  8.5 Conclusions
  References
9 Numerical Investigation on the Failure Mechanical Behavior
  of Red Sandstone Containing Two Coplanar Fissures Under
  Conventional Triaxial Compression
  9.1 Discrete Element Model and Micro-Parameters
    9.1.1 Intact Red Sandstone Material and Micro-Parameters
    9.1.2 Comparison of Triaxial Experimental and Numerical
    Results of Intact Specimen
  9.2 Macroscopic Strength and Deformation Behavior
    9.2.1 Triaxial Deformation Behavior of Red Sandstone
    Containing Two Coplanar Fissures
    9.2.2 Triaxial Strength Behavior of Red Sandstone
    Containing Two Coplanar Fissures
  9.3 Fracture Evolution Behavior
    9.3.1 Fracture Evolution Process of Intact SpeCimen
    9.3.2 Fracture Evolution Process of Flawed Specimen
    9.3.3 Effect of Confining Pressure and Coplanar Fissure Angle.
    9.3.4 Stress and Displacement Field
  9.4 Conclusions
References

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