Geotechnisches Engineering Design von Ming Xiao (englisch) Taschenbuch Buch

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Geotechnical Engineering Design

by Ming Xiao

An accessible, clear, concise, and contemporary course in geotechnical engineering design.

FORMAT Paperback LANGUAGE English CONDITION Brand New

Publisher Description

An accessible, clear, concise, and contemporary course in geotechnical engineering design. covers the major in geotechnical engineeringpacked with self-test problems and projects with an on-line detailed solutions manualpresents the state-of-the-art field practicecovers both Eurocode 7 and ASTM standards (for the US)

Back Cover

This accessible, clear, concise and contemporary text in geotechnical engineering design covers the major design topics, making it the one stop shop for students. Packed with self-test problems and projects, and with a detailed online solution manual, it presents the state of the art in engineering practice, including soil nail walls, liquefaction, earthquake foundation design and erosion controls. Geotechnical Engineering Design explains fundamental design principles and approaches in geotechnical engineering, offering an introduction to engineering geology, subsurface explorations, shallow and deep foundations, slope stability analyses and remediation, filters and drains, earth retaining structures, geosynthetics, and basic seismic evaluations of slope stability, lateral earth pressures, and liquefaction. Readers are expected to have taken a soil mechanics course and already understand the principles of engineering properties of soils. The he book applies these principles and focuses on the design methodologies in geotechnical engineering. Individual chapters present particular design approaches, followed by a detailed sample problem demonstrating it. The chapters begin by explaining why that design topic is important in engineering practice. Hundreds of illustrations on field applications and design approaches are provided throughout the text. Wherever designs are presented, sample problems and solutions are included and homework problems at the end of each chapter test students' basic understanding of the concepts and design approaches as well as challenging them to solve real-world design issues. A unique aspect of the book is the inclusion of Eurocode 7: Geotechnical design, the European Standard for the design of geotechnical structures. The design approaches of many topics in this book use both limit state design (in Europe) and allowable stress design (in the USA) so two sets of solutions in many sample problems are provided to show both design methodologies. Both British Standards and America Society for Testing and Materials (ASTM) standards are referred to. This allows an international audience to understand the commonalities and differences in geotechnical engineering designs worldwide.

Flap

This accessible, clear, concise and contemporary text in geotechnical engineering design covers the major design topics, making it the one stop shop for students. Packed with self-test problems and projects, and with a detailed online solution manual, it presents the state of the art in engineering practice, including soil nail walls, liquefaction, earthquake foundation design and erosion controls. Geotechnical Engineering Design explains fundamental design principles and approaches in geotechnical engineering, offering an introduction to engineering geology, subsurface explorations, shallow and deep foundations, slope stability analyses and remediation, filters and drains, earth retaining structures, geosynthetics, and basic seismic evaluations of slope stability, lateral earth pressures, and liquefaction. Readers are expected to have taken a soil mechanics course and already understand the principles of engineering properties of soils. The he book applies these principles and focuses on the design methodologies in geotechnical engineering. Individual chapters present particular design approaches, followed by a detailed sample problem demonstrating it. The chapters begin by explaining why that design topic is important in engineering practice. Hundreds of illustrations on field applications and design approaches are provided throughout the text. Wherever designs are presented, sample problems and solutions are included and homework problems at the end of each chapter test students' basic understanding of the concepts and design approaches as well as challenging them to solve real-world design issues. A unique aspect of the book is the inclusion of Eurocode 7: Geotechnical design, the European Standard for the design of geotechnical structures. The design approaches of many topics in this book use both limit state design (in Europe) and allowable stress design (in the USA) so two sets of solutions in many sample problems are provided to show both design methodologies. Both British Standards and America Society for Testing and Materials (ASTM) standards are referred to. This allows an international audience to understand the commonalities and differences in geotechnical engineering designs worldwide.

Author Biography

Ming Xiao is Associate Professor in the Department of Civil and Environmental Engineering at Pennsylvania State University, USA Contributing author Daniel Barreto is Lecturer in Geotechnical Engineering in the School of Engineering and the Built Environment at Edinburgh Napier University, UK

Table of Contents

Preface xi About the Authors xiii About the Companion Website xv 1. Introduction to Engineering Geology 1 1.1 Introduction 1 1.2 Structure of the Earth and geologic time 1 1.3 Formation and classification of rocks 2 1.3.1 Igneous rocks 3 1.3.2 Sedimentary rocks 3 1.3.3 Metamorphic rocks 4 1.4 Engineering properties and behaviors of rocks 4 1.4.1 Geotechnical properties of rocks 4 1.4.2 Comparison of the three types of rocks 6 1.5 Formation and classification of soils 6 1.5.1 Soils formation 6 1.5.2 Soil types 7 1.5.3 Residual and transported soils 8 1.6 Maps used in engineering geology 9 1.6.1 Topographic maps 9 1.6.2 Geologic map 9 Homework Problems 12 References 14 2. Geotechnical Subsurface Exploration 15 2.1 Framework of subsoil exploration 15 2.2 Field drilling and sampling 15 2.2.1 Information required before drilling and sampling 15 2.2.2 Drill rigs 17 2.2.3 Drilling methods and augers 17 2.2.4 Soil sampling methods 23 2.3 Geotechnical boring log 29 2.4 In situ field testing 29 2.4.1 Standard penetration test (SPT) 29 2.4.2 Cone penetration test (CPT) 34 2.4.3 Vane shear test 35 2.4.4 Flat plate dilatometer test 36 2.4.5 Inclinometer test 37 2.4.6 Groundwater monitoring well 38 2.5 Subsurface investigations using geophysical techniques 39 2.5.1 Ground penetration radar (GPR) 40 2.5.2 Electromagnetics in frequency domain and in time domain 42 2.5.3 Electrical resistivity imaging 44 2.5.4 Microgravity 45 2.5.5 Seismic refraction and seismic reflection 45 2.6 Geotechnical investigation report 48 2.6.1 Site reconnaissance and description 48 2.6.2 Subsurface exploration (field exploration) 49 2.6.3 Laboratory testing 50 2.6.4 Geotechnical engineering recommendations 50 2.6.5 Appendix 51 Homework Problems 51 References 56 3. Shallow Foundation Design 57 3.1 Introduction to foundation design 57 3.2 Bearing capacity of shallow foundations 59 3.2.1 Failure modes of shallow foundations 60 3.2.2 Terzaghi's bearing capacity theory 61 3.2.3 The general bearing capacity theory 64 3.2.4 Effect of groundwater on ultimate bearing capacity 67 3.2.5 Foundation design approach based on allowable bearing capacity and the global factor of safety approach 69 3.2.6 Foundation design approach based on allowable bearing capacity and the partial factor of safety approach 71 3.2.7 Bearing capacity of eccentrically loaded shallow foundations 81 3.2.8 Mat foundations 90 3.3 Settlements of shallow foundations 92 3.3.1 Vertical stress increase due to external load 92 3.3.2 Elastic settlement 98 3.3.3 Consolidation settlement 103 Homework Problems 108 References 116 4. Introduction to Deep Foundation Design 118 4.1 Introduction to deep foundations 118 4.1.1 Needs for deep foundation 118 4.1.2 Foundation types 118 4.1.3 Driven pile foundation design and construction process 118 4.2 Pile load transfer mechanisms and factor of safety 120 4.3 Static bearing capacity of a single pile 123 4.3.1 Nordlund method, for cohesionless soil 123 4.3.2 α-method, for undrained cohesive soil 130 4.3.3 β-method, for drained cohesionless and cohesive soils 134 4.3.4 Bearing capacity (resistance) on the basis of the results of static load tests 137 4.4 Vertical bearing capacity of pile groups 139 4.5 Settlement of pile groups 144 4.5.1 Elastic compression of piles 145 4.5.2 Empirical equations for pile group settlement using field penetration data. 145 4.5.3 Consolidation settlement of a pile group in saturated cohesive soil 145 Homework Problems 150 References 152 5. Slope Stability Analyses and Stabilization Measures 154 5.1 Introduction 154 5.2 Overview of slope stability analyses 156 5.3 Slope stability analyses – infinite slope methods 159 5.3.1 Dry slopes 159 5.3.2 Submerged slopes with no seepage 160 5.3.3 Submerged slopes with seepage parallel to the slope face 161 5.4 Slope stability analyses – Culmann's method for planar failure surfaces 163 5.5 Slope stability analyses – curved failure surfaces 168 5.5.1 Undrained clay slope (Φ = 0) 168 5.5.2 c − Φ soil (both c and Φ are not zero) 171 5.6 Slope stability analyses – methods of slices 173 5.6.1 Ordinary method of slices (Fellenius method of slices) 173 5.6.2 Bishop's modified method of slices 178 5.7 Slope stability analyses – consideration of pore water pressure 181 5.7.1 Bishop–Morgenstern method 181 5.7.2 Spencer charts 189 5.7.3 Michalowski charts 193 5.8 Morgenstern charts for rapid drawdown 194 5.9 Averaging unit weights and shear strengths in stratified slopes 198 5.10 Slope stability analyses – finite element methods 199 5.11 Slope stabilization measures 200 5.11.1 Surface drainage 201 5.11.2 Internal drainage 201 5.11.3 Unloading 202 5.11.4 Buttress and berm 204 5.11.5 Slope reinforcements 204 5.11.6 Soil retaining walls 206 Homework Problems 207 References 211 6. Filtration, Drainage, Dewatering, and Erosion Control 212 6.1 Basics of saturated flow in porous media 212 6.2 Filtration methods and design 214 6.3 Dewatering and drainage 217 6.3.1 Open pumping 218 6.3.2 Well points 218 6.3.3 Deep wells 219 6.3.4 Vacuum dewatering 220 6.3.5 Electroosmosis 220 6.4 Surface erosion and control 223 6.4.1 Surface erosion on embankments and slopes 223 6.4.2 Surface erosion control measures 223 6.5 Subsurface erosion and seepage control methods 227 6.5.1 Subsurface erosion 227 6.5.2 Underseepage control methods in levees and earthen dams 228 6.5.3 Through-seepage control methods in levees and earthen dams 230 Homework Problems 234 References 236 7. Soil Retaining Structures 237 7.1 Introduction to soil retaining structures 237 7.2 Lateral earth pressures 237 7.2.1 At-rest earth pressure 239 7.2.2 Rankine's theory 242 7.2.3 Coulomb's theory 248 7.3 Conventional retaining wall design 250 7.3.1 Factor of safety against overturning 250 7.3.2 Factor of safety against sliding 253 7.3.3 Factor of safety of bearing capacity 254 7.3.4 Retaining wall drainage 256 7.4 Sheet pile wall design 262 7.4.1 Failure modes 262 7.4.2 Preliminary data for the design 263 7.4.3 Design of cantilever walls penetrating cohesionless soils 264 7.4.4 Design of cantilever walls penetrating cohesive soils 275 7.5 Soil nail wall design 280 7.5.1 Initial design parameters and conditions 283 7.5.2 Global stability failure 284 7.5.3 Sliding failure 288 7.5.4 Bearing capacity failure 291 Homework Problems 297 References 304 8. Introduction to Geosynthetics Design 305 8.1 Geosynthetics types and characteristics 305 8.2 Design of mechanically stabilized Earth walls using geosynthetics 308 8.2.1 Design procedures of geosynthetic MSE walls 310 8.3 Design of reinforced soil slopes 322 8.4 Filtration and drainage design using geotextiles 339 8.4.1 Hydraulic properties of geotextiles 339 8.4.2 Filtration and drainage criteria 340 Homework Problems 346 References 352 9. Introduction to Geotechnical Earthquake Design 353 9.1 Basic seismology and earthquake characteristics 353 9.1.1 Seismic faults and earthquake terminology 353 9.1.2 Seismic waves 353 9.1.3 Earthquake characteristics 357 9.2 Dynamic Earth pressures 361 9.2.1 Dynamic active earth pressure 361 9.2.2 Dynamic passive earth pressure 362 9.3 Seismic slope stability 367 9.3.1 Pseudostatic analysis 368 9.3.2 Newmark sliding block analysis 375 9.3.3 Makdisi–Seed analysis 377 9.4 Liquefaction analysis 379 9.4.1 Liquefaction hazard 379 9.4.2 Evaluations of liquefaction hazard 381 9.4.3 Evaluation of CSR 381 9.4.4 Evaluation of CRR 382 Homework Problems 391 References 397 Index 399

Review

"As such, this book is likely to be retained and well thumbed by a student well into their first few years in industry."  (The Structural Engineer, 1 February  2016)

Long Description

This accessible, clear, concise and contemporary text in geotechnical engineering design covers the major design topics, making it the one stop shop for students. Packed with self-test problems and projects, and with a detailed online solution manual, it presents the state of the art in engineering practice, including soil nail walls, liquefaction, earthquake foundation design and erosion controls. Geotechnical Engineering Design explains fundamental design principles and approaches in geotechnical engineering, offering an introduction to engineering geology, subsurface explorations, shallow and deep foundations, slope stability analyses and remediation, filters and drains, earth retaining structures, geosynthetics, and basic seismic evaluations of slope stability, lateral earth pressures, and liquefaction. Readers are expected to have taken a soil mechanics course and already understand the principles of engineering properties of soils.

Review Text

“As such, this book is likely to be retained and well thumbed by a student well into their first few years in industry.”  (The Structural Engineer, 1 February  2016)

Review Quote

"As such, this book is likely to be retained and well thumbed by a student well into their first few years in industry." ( The Structural Engineer , 1 February 2016)

Details ISBN0470632232 Year 2015 ISBN-10 0470632232 ISBN-13 9780470632239 Format Paperback Short Title GEOTECHNICAL ENGINEERING DESIG Language English Media Book DEWEY 624.151 Illustrations Yes Country of Publication United States Edition 1st Publication Date 2015-05-22 UK Release Date 2015-05-22 AU Release Date 2015-05-22 NZ Release Date 2015-05-22 US Release Date 2015-05-22 Author Ming Xiao Publisher John Wiley and Sons Ltd Imprint Wiley-Blackwell Place of Publication Hoboken Audience Professional & Vocational Pages 432

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  • Condition: Neu
  • ISBN-13: 9780470632239
  • Book Title: Geotechnical Engineering Design
  • ISBN: 9780470632239
  • Publication Year: 2015
  • Type: Textbook
  • Format: Paperback
  • Language: English
  • Publication Name: Geotechnical Engineering Design
  • Item Height: 245mm
  • Author: Ming Xiao
  • Publisher: John Wiley & Sons INC International Concepts
  • Item Width: 178mm
  • Subject: Engineering & Technology
  • Item Weight: 822g
  • Number of Pages: 424 Pages

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