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Soil Mechanics (第2版) 版權信息
- ISBN:9787569322934
- 條形碼:9787569322934 ; 978-7-5693-2293-4
- 裝幀:暫無
- 冊數:暫無
- 重量:暫無
- 所屬分類:>
Soil Mechanics (第2版) 內容簡介
本書是土木工程專業的核心課程土力學的英文版教材。本教材既注重適合我國土力學課程的知識結構體系,又吸收國外經典土力學英文原版教材的精髓,采用我國現行的規范和標準進行編寫。全書重視土力學基本理論和知識、技能的闡述,力求把知識的傳授與能力的培養結合起來,內容豐富、條理清晰、系統性和邏輯性較強,便于學生系統學習和深入理解。 本書內容共分8章,包括土的基本性質和工程分類、土的滲透性和滲流力、地基中的應力分布、土的壓縮性和固結、抗剪強度、地基承載力、邊坡穩定分析,以及土壓力和擋土墻。每章開始有思維導圖,知識點清晰,每章后附有習題和參考文獻,附錄中列出了土力學常用專業名詞英漢對照和習題答案,為學生和教師的學習和查閱提供了方便。 本書可作為高等院校土木工程專業土力學課程的雙語教材,其內容與中文教材的知識體系相呼應,也可作為相關專業(水利水電工程、采礦工程、交通運輸工程等)的土力學課程的雙語教材,以及研究生和工程科技人員的參考書。
Soil Mechanics (第2版) 目錄
Preface
About the Authors
List of Symbols
Introduction
Chapter 1 Basic Characteristics and Engineering Classification of Soils
1.1 Introduction
1.2 Soil Composition and Phase Relationships
1.3 Soil Fabric
1.4 Particle Size Analysis
1.5 Density Properties for Granular Soils
1.6 Plasticity Properties of Soils
1.7 Soil Compaction
1.8 Engineering Classification of Soils
Exercises
Bibliography
Chapter 2 Permeability of Soil and Seepage Force
2.1 Introduction
2.2 Capillary Phenomena
2.3 Groundwater Movement and Darcy's Law
2.4 Determination of Permeability Coefficient
2.5 Flow Nets
2.6 Seepage Force
2.7 Critical Hydraulic Gradient
Exercises
Bibliography
Chapter 3 Stress Distribution in Soil
3.1 Introduction
3.2 Stresses Due to Self-Weight
3.3 Effective Stress Principle
3.4 Contact Pressure between the Foundation and the Ground
3.5 Additional Stress in Ground Base
3.6 Additional Stress in Plane Problem
Exercises
Bibliography
Chapter 4 Compression and Consolidation of Soils
4.1 Introduction
4.2 Compressibility Characteristics
4.3 Calculation of Settlement of Foundation
4.4 One-Dimensional Consolidation Theory
Exercises
Bibliography
Chapter 5 Shear Strength
5.1 Shear Resistance
5.2 Mohr-Coulomb Failure Criterion
5.3 Shear Strength Tests
5.4 Effective Stress Paths
5.5 Characteristics of Shear Strength of Cohesionless Soil
5.6 Characteristics of Shear Strength of Cohesive Soil
Exercises
Bibliography
Chapter 6 Bearing Capacity
6.1 Introduction
6.2 Critical Edge Pressure
6.3 Prandtl's Bearing Capacity Theory
6.4 Modification of Prandtl's Bearing Capacity Theory
6.5 Terzaghi's Bearing Capacity Theory
Exercises
Bibliography
Chapter 7 Slope Stability Analysis
7.1 Introduction
7.2 Factors and Engineering Measures that Influence Soil Slope Stability
7.3 Stability Analysis of Cohesionless Soil Slope
7.4 Stability Analysis of a Cohesive Soil Slope
7.5 Stability Number Method
Exercises
Bibliography
Chapter 8 Earth Pressure and Retaining Walls
8.1 Introduction
8.2 Earth Pressure on the Retaining Wall
8.3 Calculation of the At-Rest Earth Pressure
8.4 Rankine's Earth Pressure Theory
8.5 Coulomb's Earth Pressure Theory
8.6 Design of Earth-Retaining Structures
Exercises
Bibliography
Appendix A: English-Chinese Translation of Frequently Used Terminologies
Appendix B: Answers to the Exercises
Index
About the Authors
List of Symbols
Introduction
Chapter 1 Basic Characteristics and Engineering Classification of Soils
1.1 Introduction
1.2 Soil Composition and Phase Relationships
1.3 Soil Fabric
1.4 Particle Size Analysis
1.5 Density Properties for Granular Soils
1.6 Plasticity Properties of Soils
1.7 Soil Compaction
1.8 Engineering Classification of Soils
Exercises
Bibliography
Chapter 2 Permeability of Soil and Seepage Force
2.1 Introduction
2.2 Capillary Phenomena
2.3 Groundwater Movement and Darcy's Law
2.4 Determination of Permeability Coefficient
2.5 Flow Nets
2.6 Seepage Force
2.7 Critical Hydraulic Gradient
Exercises
Bibliography
Chapter 3 Stress Distribution in Soil
3.1 Introduction
3.2 Stresses Due to Self-Weight
3.3 Effective Stress Principle
3.4 Contact Pressure between the Foundation and the Ground
3.5 Additional Stress in Ground Base
3.6 Additional Stress in Plane Problem
Exercises
Bibliography
Chapter 4 Compression and Consolidation of Soils
4.1 Introduction
4.2 Compressibility Characteristics
4.3 Calculation of Settlement of Foundation
4.4 One-Dimensional Consolidation Theory
Exercises
Bibliography
Chapter 5 Shear Strength
5.1 Shear Resistance
5.2 Mohr-Coulomb Failure Criterion
5.3 Shear Strength Tests
5.4 Effective Stress Paths
5.5 Characteristics of Shear Strength of Cohesionless Soil
5.6 Characteristics of Shear Strength of Cohesive Soil
Exercises
Bibliography
Chapter 6 Bearing Capacity
6.1 Introduction
6.2 Critical Edge Pressure
6.3 Prandtl's Bearing Capacity Theory
6.4 Modification of Prandtl's Bearing Capacity Theory
6.5 Terzaghi's Bearing Capacity Theory
Exercises
Bibliography
Chapter 7 Slope Stability Analysis
7.1 Introduction
7.2 Factors and Engineering Measures that Influence Soil Slope Stability
7.3 Stability Analysis of Cohesionless Soil Slope
7.4 Stability Analysis of a Cohesive Soil Slope
7.5 Stability Number Method
Exercises
Bibliography
Chapter 8 Earth Pressure and Retaining Walls
8.1 Introduction
8.2 Earth Pressure on the Retaining Wall
8.3 Calculation of the At-Rest Earth Pressure
8.4 Rankine's Earth Pressure Theory
8.5 Coulomb's Earth Pressure Theory
8.6 Design of Earth-Retaining Structures
Exercises
Bibliography
Appendix A: English-Chinese Translation of Frequently Used Terminologies
Appendix B: Answers to the Exercises
Index
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