rent-now

Rent More, Save More! Use code: ECRENTAL

5% off 1 book, 7% off 2 books, 10% off 3+ books

9780849321825

Geotechnical Engineering Investigation Handbook, Second Edition

by ;
  • ISBN13:

    9780849321825

  • ISBN10:

    0849321824

  • Edition: 2nd
  • Format: Hardcover
  • Copyright: 2005-04-12
  • Publisher: CRC Press

Note: Supplemental materials are not guaranteed with Rental or Used book purchases.

Purchase Benefits

  • Free Shipping Icon Free Shipping On Orders Over $35!
    Your order must be $35 or more to qualify for free economy shipping. Bulk sales, PO's, Marketplace items, eBooks and apparel do not qualify for this offer.
  • eCampus.com Logo Get Rewarded for Ordering Your Textbooks! Enroll Now
  • Write a Review Icon Write a Review
List Price: $240.00 Save up to $78.00
  • Rent Book $162.00
    Add to Cart Free Shipping Icon Free Shipping

    TERM
    PRICE
    DUE
    USUALLY SHIPS IN 3-5 BUSINESS DAYS
    *This item is part of an exclusive publisher rental program and requires an additional convenience fee. This fee will be reflected in the shopping cart.

How To: Textbook Rental

Looking to rent a book? Rent Geotechnical Engineering Investigation Handbook, Second Edition [ISBN: 9780849321825] for the semester, quarter, and short term or search our site for other textbooks by Hunt; Roy. Renting a textbook can save you up to 90% from the cost of buying.

Summary

The Geotechnical Engineering Investigation Handbook provides the tools necessary for fusing geological characterization and investigation with critical analysis for obtaining engineering design criteria. The second edition updates this pioneering reference for the 21st century, including developments that have occurred in the twenty years since the first edition was published, such as:· Remotely sensed satellite imagery· Global positioning systems (GPS)· Geophysical exploration· Cone penetrometer testing· Earthquake studies· Digitizing of data recording and retrieval· Field and laboratory testing and instrumentation· Use of the Internet for data retrievalThe Geotechnical Engineering Investigation Handbook, Second Edition is a comprehensive guide to a complete investigation: study to predict geologic conditions; test-boring procedures; various geophysical methods and when each is appropriate; various methods to determine engineering properties of materials, both laboratory-based and in situ; and formulating design criteria based on the results of the analysis. The author relies on his 50+ years of professional experience, emphasizing identification and description of the elements of the geologic environment, the data required for analysis and design of the engineering works, and procuring the data.By using a practical approach to problem solving, this book helps engineers consider geological phenomena in terms of the degree of their hazard and the potential risk of their occurrence.

Table of Contents

Introduction
1(12)
Basic Considerations
1(2)
Human Activities and the Geologic Interface
1(1)
Investigation
2(1)
Objectives
2(1)
Scope
3(6)
General
3(1)
Investigation Methods and Procedures (Part I)
3(2)
Characteristics of Geologic Materials and Formations (Part II)
5(2)
Geologic Hazards (Part III)
7(1)
Appendices
8(1)
Geotechnical Investigation: Objectives, Stages, Scope, and Planning
9(4)
Basic Objectives
9(1)
Stages of Investigation
9(1)
Phases of Investigation
9(2)
Study Planning
11(2)
PART I: Investigation Methods and Procedures
13(322)
Exploration
15(124)
Introduction
15(2)
Objectives
15(1)
Methodology
15(1)
Scope
15(2)
Surface Mapping
17(26)
General
17(1)
Research Data
17(4)
Remotely Sensed Imagery
21(7)
Terrain Analysis
28(13)
Site Reconnaissance
41(2)
Preparation of Subsurface Exploration Program
43(1)
Subsurface Exploration
43(56)
General
43(1)
Geophysical methods
44(22)
Reconnaissance Methods
66(1)
Continuous CPT (ASTM D5778)
66(8)
Test and Core Borings
74(19)
Borehole Remote-Sensing and Logging
93(3)
Groundwater and Seepage Detection
96(3)
Recovery of Samples and Cores
99(40)
General
99(2)
Test Boring Soil Sampling
101(8)
Miscellaneous Soil-Sampling Methods
109(2)
Subaqueous Sampling
111(3)
Rock Coring
114(12)
Sample and Core Treatment
126(5)
Data Presentation
131(4)
References
135(2)
Further Reading
137(2)
Measurement of Properties
139(132)
Introduction
139(8)
Objectives
139(1)
Geotechnical Properties
139(1)
Testing Methods Summarized
140(7)
Basic and Index Properties
147(16)
Intact Rock
147(3)
Rock Masses
150(1)
Soils
151(12)
Hydraulic Properties (Permeability)
163(11)
Introduction
163(1)
Estimating the Permeability Coefficient k
164(2)
Laboratory Tests
166(4)
In Situ Testing
170(4)
Rupture Strength
174(44)
Introduction
174(5)
Shear Strength Relationships
179(12)
Rock Strength Measurements
191(8)
Soil Strength Measurements
199(12)
Soil Penetration Tests
211(7)
Deformation without Rupture
218(36)
Introduction
218(5)
Deformation Relationships
223(4)
Rock Deformation Measurements
227(8)
Soil Deformation Measurements (Static)
235(16)
Dynamic Deformation Moduli (Soils)
251(3)
Typical Values of Basic, Index, and Engineering Properties
254(17)
Rock Masses
254(1)
Weathered Rock and Residual Soil
255(1)
Cohesionless Soils
255(1)
Clay Soils
255(8)
Compacted Materials
263(1)
References
263(6)
Further Reading
269(2)
Field Instrumentation
271(64)
Introduction
271(8)
Methods and Instruments Summarized
271(1)
Objectives
271(1)
Applications
271(4)
Program Elements
275(2)
Transducers
277(2)
Surface Movements
279(12)
Forms and Significance
279(2)
Surveying
281(4)
Tiltmeters
285(2)
Extensometers
287(3)
Vibration Monitoring
290(1)
Subsurface Deformations
291(17)
Forms and Significance
291(1)
Vertical Displacement
292(5)
Lateral Displacement
297(5)
Linear Strain Gradients
302(2)
Acoustical Emissions
304(4)
In Situ Pressures and Stresses
308(12)
General
308(1)
Pore-Water Pressures
309(5)
Loads and Stresses
314(3)
Residual Rock Stresses
317(3)
Instrumentation Arrays for Typical Problems
320(15)
Importance
320(1)
Settlement of Structures
320(3)
Excavation Retention
323(1)
Earth Dams
324(2)
Tunnels, Caverns, and Mines
326(3)
Natural and Cut Slopes
329(3)
Fault Movements
332(1)
References
332(2)
Further Reading
334(1)
Catalogs
334(1)
PART II: Characteristics of Geologic Materials and Formations
335(362)
Rock and Soil: Identification and Classification
337(68)
Introduction
337(2)
The Geologic Materials
337(1)
Rock Groups and Classes
338(1)
Soil Groups and Classes
339(1)
Rocks
339(44)
The Three Groups
339(1)
Petrographic Identification
340(6)
Igneous Rocks
346(2)
Sedimentary Rocks
348(13)
Metamorphic Rocks
361(3)
Engineering Characteristics of Rock Masses
364(4)
Rock-Mass Description and Classification
368(15)
Soils
383(22)
Components
383(1)
Granular or Cohesionless Soils
384(1)
Clays
385(5)
Organic Materials
390(1)
Related Engineering Properties
391(4)
Classification and Description of Soils
395(8)
References
403(1)
Further Reading
404(1)
Rock-Mass Characteristics
405(88)
Introduction
405(13)
Characteristics Summarized
405(1)
Terrain Analysis
406(5)
Mapping and Presenting Structural Features
411(7)
Original Rock-Mass Forms
418(12)
Significance
418(1)
Igneous Rocks
419(1)
Sedimentary Rocks
420(8)
Metamorphic Rock
428(2)
Deformation by Folding
430(7)
General
430(2)
Fracture Cleavage
432(1)
Landforms
433(4)
Jointing
437(14)
General
437(1)
Forms and Characteristics
438(3)
Jointing in Various Rock Types
441(5)
Block Behavior
446(5)
Faults
451(11)
General
451(1)
Terminology
451(2)
Characteristics and Identification
453(1)
Engineering Significance
454(6)
Investigation Methodology Summarized
460(2)
Residual Stresses
462(3)
General
462(1)
Tensile Straining
463(1)
Rock Bursts
463(1)
Anticipating Unstable Conditions
464(1)
Alteration of Rock
465(28)
General
465(2)
Factors Affecting Decomposition
467(8)
Weathering Profile in Various Rock Types
475(14)
References
489(2)
Further Reading
491(2)
Soil Formations: Geologic Classes and Characteristics
493(124)
Introduction
493(7)
Geologic Classification of Soil Formations
493(3)
Terrain Analysis
496(4)
Residual Soils
500(11)
Introduction
500(3)
Igneous and Metamorphic Rocks
503(5)
Sedimentary Rocks
508(3)
Colluvial Deposits
511(5)
Introduction
511(1)
Recognition
512(2)
Engineering Significance
514(2)
Alluvial Deposits
516(41)
Fluvial Environment
516(13)
Estuarine Environment
529(5)
Coastline Environment
534(8)
Coastal Plain Deposits
542(8)
Lacustrine Environment (Nonglacial)
550(6)
Marine Environment
556(1)
Eolian Deposits
557(11)
Eolian Processes
557(2)
Dunes and Sand Sheets
559(4)
Loess
563(5)
Volcanic Clays
568(1)
Glacial Deposits
568(25)
Glacial Activity
568(4)
Till
572(5)
Glacial-Fluvial Stratified Drift
577(3)
Glacial-Lacustrine Soils
580(10)
Glacial-Marine Clays
590(3)
Secondary Deposits
593(9)
Introduction
593(1)
Duricrusts
593(6)
Permafrost and Seasonal Frost
599(3)
Pedological Soils and Plant Indicators
602(15)
Introduction
602(1)
Pedological Classifications
603(7)
Plant Indicators
610(2)
References
612(3)
Further Reading
615(2)
Water: Surface and Subsurface
617(80)
Introduction
617(1)
General
617(1)
Engineering Aspects
617(1)
Surface Water
618(14)
Surface Hydrology
618(3)
Erosion
621(6)
Flooding
627(5)
Subsurface Water (Groundwater)
632(27)
Occurrence
632(6)
Subsurface Flow
638(8)
Flow Systems and Analysis
646(7)
Practical Aspects of Groundwater
653(6)
Groundwater and Seepage Control
659(28)
Introduction
659(2)
Cutoffs and Barriers
661(8)
Dewatering
669(5)
Drains
674(2)
Filters
676(1)
Surface Treatments
677(1)
Typical Solutions to Engineering Problems
677(10)
Environmental Conservation
687(10)
Water Conservation and Flood Control
687(3)
Groundwater Pollution Control
690(2)
Environmental Planning Aspects Summarized
692(1)
References
693(2)
Further Reading
695(2)
PART III: Geologic Hazards
697(300)
Landslides and Other Slope Failures
699(134)
Introduction
699(15)
General
699(1)
Hazard Recognition
700(5)
Rating the Hazard and the Risk
705(2)
Elements of Slope Stability
707(7)
Slope Failure Form Characteristics
714(41)
Creep
714(1)
Falls
715(1)
Planar Slides in Rock Masses
716(7)
Rotational Slides in Rock
723(1)
Rotational Slides in Soils
723(2)
Lateral Spreading and Progressive Failure
725(16)
Debris Slides
741(2)
Debris Avalanches
743(5)
Debris Flows
748(1)
Rock-Fragment Flows
748(1)
Soil and Mud Flows
749(4)
Seafloor Instability
753(2)
Assessment of Slopes
755(33)
General
755(1)
Stability Analysis: A Brief Review
755(17)
Slope Characteristics
772(11)
Weather Factors
783(3)
Hazard Maps and Risk Assessment
786(2)
Treatment of Slopes
788(25)
General Concepts
788(5)
Changing Slope Geometry
793(4)
Surface Water Control
797(1)
Internal Seepage Control
798(4)
Side-Hill Fills
802(2)
Retention
804(9)
Investigation: A Review
813(20)
General
813(6)
Regional and Total Slope Studies
819(3)
Detailed Study of Cut, Fill, or Failure Area
822(1)
Case Study
823(3)
Instrumentation and Monitoring
826(2)
References
828(3)
Further Reading
831(2)
Ground Subsidence, Collapse, and Heave
833(60)
Introduction
833(1)
General
833(1)
The Hazards
833(1)
Scope and Objectives
833(1)
Groundwater and Oil Extraction
834(10)
Subsurface Effects
834(1)
Surface Effects
835(1)
Physiographic Occurrence
836(1)
Significant Examples
837(3)
Subsidence Prevention and Control
840(4)
Subsurface Mining
844(12)
Subsidence Occurrence
844(3)
Longwall Panel Extraction
847(1)
Room and Pillar Method (Also ``Breast and Heading'' Method)
848(3)
Strength Properties of Coal
851(1)
Investigation of Existing Mines
852(3)
Subsidence Prevention and Control and Foundation Support
855(1)
Solution of Rock
856(9)
General
856(1)
Solution Phenomenon and Development
856(5)
Investigation
861(3)
Support of Surface Structures
864(1)
Soil Subsidence and Collapse
865(14)
General
865(1)
Collapsible or Metastable Soils
865(7)
Predicting Collapse Potential
872(2)
Treatment and Support of Structures
874(2)
Piping Soils and Dispersive Clays
876(3)
Heave in Soil and Rock
879(14)
General
879(1)
Swelling in Soils
880(3)
Swelling in Rock Masses
883(3)
Treatments to Prevent or Minimize Swelling and Heave
886(1)
References
887(4)
Further Reading
891(2)
Earthquakes
893(104)
Introduction
893(6)
General
893(1)
Geographic Distribution
894(5)
Objectives and Scope
899(1)
Earthquake Elements
899(30)
The Source
899(3)
Seismic Waves
902(3)
Ground Motion
905(5)
Intensity and Magnitude
910(6)
Attenuation
916(3)
Amplification
919(4)
Duration
923(1)
Recurrence and Forecasting
924(5)
Surface Effects on the Geologic Environment
929(30)
Faulting
929(12)
Soil Behavior
941(3)
Subsidence and Liquefaction
944(7)
Slope Failures
951(5)
Tsunamis and Seiches: Response of Large Water Bodies
956(2)
The Volcano Hazard
958(1)
Earthquake-Resistant Design: An Overview
959(24)
Introduction
959(2)
Structural Response
961(4)
Site Ground-Response Factors
965(2)
Response Spectra
967(3)
Seismic Hazard Analysis
970(2)
The Design Earthquake
972(6)
Soil-Structure Interaction Analysis (SSI)
978(5)
Investigation: Important Structures in High-Hazard Areas
983(14)
Introduction
983(1)
Preliminary Phase
983(3)
Detailed Study of Regional and Local Geologic Conditions
986(2)
Evaluation and Analysis
988(1)
Limitations in the Present State of the Art
989(2)
References
991(4)
Further Reading
995(2)
APPENDICES
997(22)
Appendix A. The Earth and Geologic History
997(8)
A.1 Significance to the Engineer
997(1)
A.2 The Earth
997(1)
A.2.1 General
997(1)
A.2.2 Cross Section
997(1)
A.3 Global Tectonics
998(1)
A.3.1 General
998(1)
A.3.2 The Hypotheses
998(1)
A.4 Geologic History
999(1)
A.4.1 North America: Provides a General Illustration
999(3)
A.4.2 Radiometric Dating
1002(1)
References
1003(1)
Further Reading
1003(2)
Appendix B. USGS Quads, Aerial Photographs, Satellite and SLAR Imagery
1005(2)
FIG Topographic Maps (USGS Quadrangle Maps)
1005(1)
FIG Stereo-Pairs of Aerial Photos
1006(1)
FIG Satellite and SLAR Imagery
1006(1)
Appendix C. English to Metric to the International System
1007(2)
Appendix D. Symbols
1009(6)
Appendix E. Engineering Properties of Geologic Materials: Data and Correlations
1015(4)
Index 1019

Supplemental Materials

What is included with this book?

The New copy of this book will include any supplemental materials advertised. Please check the title of the book to determine if it should include any access cards, study guides, lab manuals, CDs, etc.

The Used, Rental and eBook copies of this book are not guaranteed to include any supplemental materials. Typically, only the book itself is included. This is true even if the title states it includes any access cards, study guides, lab manuals, CDs, etc.

Rewards Program