《Soil Mechanics(英文版土力學基礎)》是2004年人民交通出版社出版的圖書,作者是施建勇。
基本介紹
- 中文名:Soil Mechanics(英文版土力學基礎)
- 外文名:Soil Mechanics
- 作者:施建勇
- 出版時間:2004年7月
- 出版社:人民交通出版社
- 頁數:342 頁
- ISBN:9787114050534
- 開本:16 開
- 裝幀:平裝
內容簡介,圖書目錄,
內容簡介
教育部倡導在具備條件的高等院校中進行雙語教學,許多院校都做了有益的探索和嘗試。有些院校直接採用外文原版書進行教學,反饋意見各不相同。由於我國土木工程專業高等教育模式與國外存在較大差別,編制適合國內學生特點的本土英文版教材,成為國內院校的迫切需要。基於此,河海大學土木工程學院的幾位教授在國內土力學教材的基礎上,參照國外英文版圖書的編寫方式和風格,同時考慮國內學生的使用特點,精心編譯而成此書。《土力學教材(英文版)》共分八章:第一章 土體的物理性質和岩土工程的分類;第二章 滲流;第三章 地基中的應力;第四章 地基的壓縮和固結;第五章 土的抗剪強度;第六章 土壓力理論;第七章 邊坡穩定分析;第八章 地基承載力。每章後均附有習題、符號說明和部分專業英語辭彙的漢譯,供學生在使用《土力學教材(英文版)》時練習、參照。《土力學教材(英文版)》為英文。
《土力學教材(英文版)》可供高等學校土木工程專業及相關專業在開設土力學雙語教學課程時使用。
圖書目錄
CHAFFER 1 PHYSICAL PROPERTIES AND ENGINEERING CLASSIFICATION OF SOIL
1.1 Formation of Soil
1.2 Components of Soil
1.2.1 Solid Phase
1.2.2 Liquid Phase
1.2.3 Vapor Phase
1.3 Soil Fabric
1.3.1 Interaction between Soil Particles
1.3.2 Soil Fabric
1.4 Physical Features and Indexes of Soii
1.4.1 Basic Physical Indexes
1.4.2 Calculated Physical Indexes
1.4.3 Conversion between Physical Indexes
1.5 Relative Density of Cohesionless Soil, Consistency of Cohesive Soil and Soil Compaction
1.5.1 Relative Density of Cohesionless Soil
1.5.2 Consistency of Cohesive Soil
1.5.3 Soil Compaction
1.6 Soil Classification
CI-tAFFER 2 WATER FLOW THROUGH SOIL
2.1 Introduction
2.2 Driving Potential——Total Head
2.3 Darcys Law
2.3.1 Darcys Law
2.3.2 Validity of Darcys Law
2.4 Determination of the Coefficient of Permeability
2.4.1 Empirical Relationships for k
2.4.2 Determination of k in the Laboratory
2.4.3 Pumping Test to Determine k in the Field
2.4.4 The Coefficient of Permeability of Soil Layers
2.5 Two-Dimensional Flow of Water through Soil and Flow Net
2.5.1 Laplaces Equation for Two-Dimensional Steady Flow
2.5.2 Flow Net
2.6 Effective Stress and Pore Water Pressure in soil
2.6.1 The Principle of Effective Stress
2.6.2 Effective Stresses due to Hydrostatic Stress Fields
2.6.3 Effects of Seepage
2.7 Seepage Force and Critical Hydraulic Gradient
2.7.1 Seepage Force
2.7.2 Heaving, Boiling, and Piping
2.7.3 Critical Hydraulic Gradient
CHAPTER 3 STRESSES IN SOIL
3.1 Introduction
3.2 Effective Overburden Pressure in the Ground
3.3 Contact Pressure between the Foundation and the Ground
3.3.1 Contact Pressure due to Vertical Centric Load
3.3.2 Contact Pressure due to Vertical Eccentric Load
3.3.3 Contact Pressure due to Inclined Eccentric Load
3.4 Stress Increase in the Ground
3.4.1 Stress Increase in Spatial Problems
3.4.2 Stress Increase in Plane Problems
3.4.3 Effective Overburden Pressure of Embankment and Contact Pressure between Embankment and Ground
CHAPTER 4 COMPRESSION AND CONSOLIDATION OF SOIL
4.1 Introduction
4.2 Soil Compressibility Characteristics
……
CHAPTER 5 SHEAR STRENGTH OF SOIL
CHAPTER 6 EARTH PRESSURE ON RETAINING STRUCTURES
CHAPTER 7 SLOPE STABILITY
CHAPTER 8 BEARING CAPACITY OF FOUNDATIONS
REEERENCES
