Kooperativer Bibliotheksverbund

UID:

Format: XIII, 606 S. : , graph. Darst.

ISBN: 0-387-96711-7 , 3-540-96711-7

Note: Literaturangaben

Language: English

Subjects: Physics

Keywords: Baukonstruktion ; Kunststoff ; Stahlbetonkonstruktion ; Plastizität ; Plastizität ; Baustoff

URL: Cover

URL: Inhaltstext

Author information: Chen, Wai-Fah 1936-

UID:

Format: X, 250 S. : graph. Darst. , Diskette (12 cm)

ISBN: 0-387-96789-3 , 3-540-96789-3

Language: English

Subjects: Engineering

Keywords: Plastizität ; Strukturmechanik ; Baustatik ; Plastizität

Author information: Chen, Wai-Fah 1936-

UID:

Format: 1 online resource (244 p.)

ISBN: 1-299-28462-0 , 0-444-59836-7

Series Statement: Developments in geotechnical engineering ; 38

Content: This book is addressed primarily to civil engineers familiar with such traditional topics as strength of materials, soil mechanics, and theory of elasticity and structures, but less familiar with the modern development of the mathematical theory of soil plasticity necessary to any engineer working under the general heading of nonlinear analysis of soil-structure system. This book will satisfy his needs in the case of the soil medium.It introduces the reader to the theory of soil plasticity and its numerical implementation into computer programs. The theory and method of computer impl

Note: Description based upon print version of record. , Front Cover; Soil Plasticity: Theory and Implementation; Copyright Page; Preface; Table of Contents; Notation; CHAPTER 1. THE CONTINUUM THEORY OF SOIL MECHANICS; 1.1 Introduction; 1.2 Notations; 1.3 Stresses in three dimensions; 1.4 Strains in three dimensions; 1.5 Equations of solid mechanics; 1.6 Constitutive modeling of soils and rocks; References; CHAPTER 2. ELASTIC-PLASTIC CONSTITUTIVE MODELING OF SOILS; 2.1 Elastic and plastic theories applied to design in soil; 2.2 Soil plasticity - a brief historical sketch; 2.3 Failure criteria; 2.4 Cauchy elasticity and modeling , 2.5 Hyperelasticity and modeling2.6 Hypoelasticity and modeling; 2.7 Deformation plasticity and modeling; 2.8 Incremental plasticity and modeling; 2.9 Isotropie hardening plasticity and modeling; 2.10 Kinematic hardening plasticity and modeling; 2.11 Mixed hardening plasticity and modeling; CHAPTER 3. NONLINEAR ELASTIC-PERFECTLY PLASTIC MODELS; 3.1 Introduction; 3.2 Basic concept of plasticity; 3.3 General description of elastic-perfectly plastic constitutive relations; 3.4 Prandtl-Reuss material; 3.5 Drucker-Prager material , 3.6 Procedure for fitting elastic-perfectly plastic models to a given set of material properties3.7 Numerical implementation of elastic-perfectly plastic models; 3.8 User's Guide for computer program MODEL; 3.9 User's Guide for the triaxial driver; 3.10 Mechanical behavior of soil; 3.11 Ability of ideal plastic models to simulate soil behavior; 3.12 Capped yield surfaces; References; CHAPTER 4. NONLINEAR ELASTIC WORK-HARDENING PLASTIC CAP MODELS; 4.1 General description of the cap model; 4.2 Derivation of the general incremental strain-stress relations , 4.3 Derivation of the stiffness matrix for the cap model4.4 Demonstration of selected forms of the cap model; 4.5 Procedure for fitting elastic work-hardening plastic models to a given set of material properties; 4.6 Numerical implementation of the cap model; 4.7 User's guide for the model subroutine; 4.8 Numerical example; References; CHAPTER 5. NUMERICAL EXAMPLES; 5.1 Nonlinear analysis; 5.2 Active and passive earth pressures; 5.3 Settlement and collapse calculations of footings; 5.4 Large deformation analysis of slopes; References; CHAPTER 6. ADVANCED CAP MODELS; 6.1 Introduction , 6.2 Generalized total stress model for isotropic materials6.3 Strain-softening model; 6.4 Elastic-viscoplastic model; 6.6 Effective-stress model; References; Author index; Subject index , English

Additional Edition: ISBN 0-444-42455-5

Language: English

UID:

Format: Getr. Zählung , Ill., graph. Darst., Kt.

ISBN: 0849300681

Series Statement: New directions in civil engineering

Language: English

Subjects: Engineering

Keywords: Erdbebensicherheit

URL: http://www.loc.gov/catdir/enhancements/fy0646/2002073647-d.html

URL: http://www.e-streams.com/es0610/es0610_2779.html

Author information: Chen, Wai-Fah 1936-

UID:

Format: 1 online resource (xiv, 638 pages) : , illustrations.

ISBN: 0-444-60106-6

Series Statement: Developments in geotechnical engineering ; 7

Content: Limit Analysis and Soil Plasticity

Note: Description based upon print version of record. , Front Cover; Limit Analysis and Soil Plasticity; Copyright Page; Dedication; Foreword; Preface; Table of Contents; Chapter 1. Introduction; 1.1. Introduction; 1.2. Slip-line method and limit equilibrium method; 1.3. Limit analysis method; 1.4. A brief historical account of soil plasticity; Chapter 2. The assumptions and theorems used in limit analysis; 2.1 Introduction; 2.2. Perfectly plastic assumption and Coulomb yield criterion; 2.3. The kinematic assumption on soil deformations and the concept of flow rule; 2.4. The assumption of small change in geometry and the equation of virtual work , 2.5. Theorems of limit analysis2.6. Limit theorems for materials with non-associated flow rules; Chapter 3. Limit analysis by the upper-bound method; 3.1. Introduction; 3.2. Rigid block sliding separated by narrow transition layer; 3.3. Intermixing of homogeneous deforming regions and rigid block sliding; 3.4. Intermixing of inhomogeneous deforming regions and rigid block sliding; 3.5. Evaluation of the minimum solution for an assumed mechanism; 3.6. The dissipation functions; Chapter 4. Limit analysis by the lower-bound method; 4.1. Introduction; 4.2. Mohr's diagram and basic relations , 4.3. Discontinuities in the stresses4.4. Jump conditions at a discontinuity surface of Tresca material; 4.5. Jump conditions at a discontinuity surface of Coulomb material; 4.6. Discontinuous fields of stress viewed as pin-connected trusses - Tresca material; 4.7. Discontinuous fields of stress viewed as pin-connected trusses - Coulomb materials; 4.8. Graphical construction of discontinuous stress fields; 4.9. Combined method for solving the problems involving overlapping of discontinuous stress fields; Chapter 5. Progressive failure of footings; 5.1. Introduction , 5.2. Plane strain notched tensile specimen (Von Mises material)5.3. Plain strain punch indentation of rectangular blocks (Von Mises material); 5.4. Uniform strip load on a shallow stratum of undrained clay (Von Mises material); 5.5. Rigid strip footing on an elastic stratum; 5.6. Rigid strip footing on an overconsolidated stratum of insensitive clay (extended Von Mises material); 5.7. Rigid strip footing on a stratum of undrained clay (Von Mises material); 5.8. Rigid circular punch on an elastic-plastic strain hardening layer (isotropic hardening Von Mises material) , 5.9. A brief historical sketch5.10. Summary and conclusions; Chapter 6. Bearing capacity of strip footings; 6.1. Introduction; 6.2. Limit analysis, slip-line and limit equilibrium methods; 6.3. Soil governing parameters; 6.4. Bearing capacity of a strip footing on a general c-φ-γ soil; 6.5. Bearing capacity of a strip footing on cohesionless soils (Nγ factor); 6.6. Bearing capacity of a strip footing on A c - φ weightless soil (Nc and Nq factors); 6.7. Bearing capacity determination by slip-line method; 6.8. Bearing capacity of footings on nonhomogeneous anisotropic soils , 6.9. Summary and conclusions , English

Additional Edition: ISBN 0-444-41249-2

Language: English

UID:

Format: 1 online resource (492 p.)

ISBN: 0-444-59835-9

Series Statement: Developments in geotechnical engineering ; 52

Content: During the last ten years, our understanding of the perfect plasticity and the associated flow rule assumption on which limit analysis is based has increased considerably. Many extensions and advances have been made in applications of limit analysis to the area of soil dynamics, in particular, to earthquake-induced slope failure and landslide problems and to earthquake-induced lateral earth pressures on rigid retaining structures. The purpose of the book therefore is in part to discuss the validity of the upper bound work (or energy) method of limit analysis in a form that can be appreciated

Note: Description based upon print version of record. , Front Cover; Limit Analysis in Soil Mechanics; Copyright Page; Preface; Table of Contents; Chapter 1. INTRODUCTION; 1.1 Introduction; 1.2 A short historical review of soil plasticity; 1.3 Idealized stress-strain relations for soil; 1.4 Limit analysis for collapse load; 1.5 Finite-element analysis for progressive failure behavior of soil mass; Chapter 2. BASIC CONCEPTS OF LIMIT ANALYSIS; 2.1 Introduction; 2.2 Index notation; 2.3 The perfectly plastic assumption and yield criterion; 2.4 The kinematic assumption on soil deformations and flow rule; 2.5 The stability postulate of Drucker , 2.6 Restrictions imposed by Drucker's stability postulate - convexity and normality2.7 The assumption of small change in geometry and the equation of virual work; 2.8 Theorems of limit analysis; 2.9 Limit theorems for materials with non-associated flow rules; 2.10 The upper-bound method; 2.11 The lower-bound method; References; Chapter 3. VALIDITY OF LIMIT ANALYSIS IN APPLICATION TO SOILS; 3.1 Introduction; 3.2 Soil - a multiphase material; 3.3 Mechanical behaviour of soils; 3.4 Soil failure surfaces; 3.5 Validity of limit analysis in application to soils , 3.6 Friction-dalatation and related energy in cohesionless soils3.7 Effect of friction on the applicability of limit analysis to soils; 3.8 Some aspects of retaining wall problems and the associated phenomena at failure; References; Chapter 4. LATERAL EARTH PRESSURE PROBLEMS; 4.1 Introduction; 4.2 Failure mechanism; 4.3 Energy dissipation; 4.4 Passive earth pressure analysis; 4.5 Active earth pressure analysis; 4.6 Comparisons and discussions; 4.7 Some practical aspects; References; Chapter 5. RIGID RETAINING WALLS SUBJECTED TO EARTHQUAKE FORCES; 5.1 Introduction; 5.2 General considerations , 5.3 Seismic passive earth pressure analysis5.4 Seismic active earth pressure analysis; 5.5 Numerical results and discussions; 5.6 Earth pressure tables for practical use; References; Appendix A: Seismic earth pressure tables for KA and KP; Appendix B: Earth pressure tables for NAc and NPc; Chapter 6. SOME PRACTICAL CONSIDERATIONS IN DESIGN OF RIGID RETAINING STRUCTURES; 6.1 Introduction; 6.2 Theoretical considerations of the modified Dubrova method; 6.3 Some numerical results and discussions of the modified Dubrova method; 6.4 Evaluation of the modified Dubrova method , 6.5 Effects of wall movement on lateral earth pressures6.6 Earth pressure theories for design applications in seismic environments; 6.7 Design recommendations; References; Chapter 7. BEARING CAPACITY OF STRIP FOOTING ON ANISOTROPIC AND NONHOMOGENEOUS SOILS; 7.1 Introduction; 7.2 Analysis; 7.3 Results and discussions; References; Chapter 8. EARTHQUAKE-INDUCED SLOPE FAILURE AND LANDSLIDES; 8.1 Introduction; 8.2 Failure surface; 8.3 Determination of the critical height for seismic stability; 8.4 Special spiral-slope configurations; 8.5 Calculated results and discussions; 8.6 Concluding remarks , References , English

Additional Edition: ISBN 0-444-43042-3

Language: English

UID:

Format: Getr. Zählung , Ill., zahlr. graph. Darst., Kt.

ISBN: 0849374340

Language: English

Keywords: Brückenbau

Author information: Chen, Wai-Fah 1936-

UID:

Format: XVII, 732 S. , graph. Darst.

ISBN: 0070107599

Series Statement: Advanced book program

In: 2

Language: English

Author information: Chen, Wai-Fah 1936-

UID:

Format: XV, 513 Sp. , zahlr. graph. Darst.

ISBN: 0070107548

Series Statement: Advanced book program

In: 1

Language: English

Author information: Chen, Wai-Fah 1936-

UID:

Format: XIII, 509 S. , graph. Darst. , 2 Disketten (9 cm)

ISBN: 0387943145

Language: English

Subjects: Physics

Keywords: Rahmen ; Stahl

Author information: Chen, Wai-Fah 1936-