Determination of Soil Stiffness Parameters

Slides:

Advertisements

Similar presentations

A. Mellal & Ph. Bellwald Implementation of a constitutive law in Z_Soil Z_Soil Day, 27 August 2007, Lausanne, Switzerland Aïssa Mellal, GeoMod.

Advertisements

Constitutive models Part 2 Elastoplastic

Validation of the plasticity models introduction of hardening laws

Stress and Deformation: Part II (D&R, ; ) 1. Anderson's Theory of Faulting 2. Rheology (mechanical behavior of rocks) - Elastic: Hooke's.

6. Settlement of Shallow Footings

Course : S0705 – Soil Mechanic

INTRODUCTION Session 1 – 2

Non-Linear Hyperbolic Model & Parameter Selection Short Course on Computational Geotechnics + Dynamics Boulder, Colorado January 5-8, 2004 Stein Sture.

Impacts of Seismic Stress on Pore Water Pressure in Clayey Soil By: Qazi Umar Farooq Lecturer Civil Engineering Dept Univ of Engg & Tech Taxila.

Determination of Soil Stiffness Parameters

1 Asia Managing Geotechnical Risk Learning from the Failures “Issues related to the use of Numerical Modelling in Design of Deep Excavations in Soft Clay”

Soil mechanics – a short introduction

Finite Element Method in Geotechnical Engineering

Announcements Midterm next Monday! Midterm review during lab this week Extra credit opportunities: (1) This Thurs. 4 pm, Rm. Haury Bldg. Rm 216, "The role.

Priyantha Jayawickrama, Ph.D. Associate Professor

Shallow Foundation Settlement

Mechanics of Materials II

Mohr-Coulomb Model Short Course on Computational Geotechnics + Dynamics Boulder, Colorado January 5-8, 2004 Stein Sture Professor of Civil Engineering.

Shear Strength of Cohesive (Clay) Soil

Session 17 – 18 PILE FOUNDATIONS

Lecture-8 Shear Strength of Soils

GEO-MECHANICS (CE2204) Shear Strength of Soils

Direct Shear Test CEP 701 PG Lab.

Shear Strength of Soils

ECGD 4122 – Foundation Engineering

Shear Strength of Soil By Kamal Tawfiq Fall 2007.

CEP Soil Engineering Laboratory

CE 317 Geotechnical Engineering Dr. Tae-Hyuk Kwon

Poisson’s Ratio For a slender bar subjected to axial loading:

Dynamic Behaviour of Unsaturated CH soil under Cyclic Loading in Unconsolidated Undrained Conditions 5th Tongji-UBC Symposium on Earthquake Engineering,

Shear Strength of Soils

Manufacturing process II. Sándor Pálinkás Ph. D

Chapter 11 Outline Equilibrium and Elasticity

Course : S0484/Foundation Engineering Year : 2007 Version : 1/0

III. Strain and Stress Strain Stress Rheology A rheological law relates strain to stress and time.

Soil Strength (CH13). Strength Greatest stress a material can sustain Concrete strength?

A KINEMATIC HARDENING MODEL WITH DEGRADATION OF STRUCTURE – APPLICATION TO SOFT NATURAL CLAYS Béatrice A Baudet University College London.

School of Civil Engineering University of Nottingham Predicting the Repeated Load Behaviour of Pavement Subgrades Using the Three- surface Kinematic Hardening.

SOIL MECHANICS AND FOUNDATION ENGINEERING-II (CE 311)

Soil Mechanics Topic – Triaxial shear test(CD, CU, UU tests)

GLE/CEE 330: Soil Mechanics Settlement of Shallow Footings

Critical state soil mechanics in prediction of strains

Lecturer: Dr. Frederick Owusu-Nimo

EAG 345 – GEOTECHNICAL ANALYSIS

Ch. 12 Shear strengths of soil.

Shear Strength of Soil.

ANSYS Basic Concepts for ANSYS Structural Analysis

The Engineering of Foundations

EAG 345 – GEOTECHNICAL ANALYSIS

Soft Soil Engineering (Class note) Junhwan Lee School of Civil and Environmental Engineering Yonsei University.

FE: Geotechnical Engineering

oleh: A. Adhe Noor PSH, ST., MT

GEOTECHNICAL ENGINEERING Shear Strength of Soil

C.K. PITHAWALLA COLLAGE OF ENGINEERING & TECHNOLOGY

GEOTECHNICAL ENGINEERING Shear Strength of Soil

Finite Element Method in Geotechnical Engineering

QuakeCoRE Project Update

Aspek Geoteknik.

Monday-6 Stress paths, State Paths and Use of Voids Ratio.

Continuum Mechanics (MTH487)

Questions – Elasticity and Plasticity

Aspek Geoteknik.

oleh: A. Adhe Noor PSH, ST., MT

Continuum Mechanics for Hillslopes: Part V

Soil Shear Strength.

YULVI ZAIKA JURUSAN TEKNIK SIPIL FAK.TEKNIK UNIV.BRAWIJAYA

GEOTECHNICAL ENGINEERING Shear Strength of Soil (Learning activities)

Triaxial Compression Test ASTM D-2166 /02

Laminates of Orthotropic plies

Presentation transcript:

Determination of Soil Stiffness Parameters Short Course on Computational Geotechnics + Dynamics Boulder, Colorado January 5-8, 2004 Stein Sture Professor of Civil Engineering University of Colorado at Boulder

Contents General concepts and stiffness of sand Stiffness of clays Hooke’s law E-moduli from triaxial testing E-moduli from oedometer testing Examples on the estimation of E Stiffness of clays Undrained clay behavior Drained clay behavior Computational Geotechnics Determination of Soil Stiffness Parameters

Idealized and real stress-strain behavior of soils Idealized types of stress-strain behaviors: (a) nonlinear elastic Model, (b) linear elastic model, and (c) elastoplastic model Computational Geotechnics Determination of Soil Stiffness Parameters

Idealized and real stress-strain behavior of soils Various types of elastoplastic behaviors: (a) strain hardening, (b) perfectly plastic, (c) strain softening, and (d) combination of a to c. Computational Geotechnics Determination of Soil Stiffness Parameters

Hooke’s Law of Isotropic Elasticity Computational Geotechnics Determination of Soil Stiffness Parameters

Hooke’s Law of Isotropic Elasticity Computational Geotechnics Determination of Soil Stiffness Parameters

Standard Drained Triaxial Test on Sand Computational Geotechnics Determination of Soil Stiffness Parameters

Standard Drained Triaxial Test on Sand Computational Geotechnics Determination of Soil Stiffness Parameters

Oedometer Test on Sand Computational Geotechnics Determination of Soil Stiffness Parameters

Oedometer Test on Sand Computational Geotechnics Determination of Soil Stiffness Parameters

Oedometer Test on Sand Hooke: Loose: Dense: Computational Geotechnics Determination of Soil Stiffness Parameters

Oedometer Test on Sand Loose: Dense: This implies: Computational Geotechnics Determination of Soil Stiffness Parameters

Summary on Stiffness Parameters: Sand (Laboratory based experience) Loose: Loose: Dense: Dense: Unloading: About 4 times stiffer. n small Computational Geotechnics Determination of Soil Stiffness Parameters

Selection of Moduli for FEM-Computation Example 1 (loading): Layer 1 (extremely loose sand Mohr-Coulomb model: Layer 1: Average Computational Geotechnics Determination of Soil Stiffness Parameters

Selection of Moduli for FEM-Computation Example 2 (unloading): Layer 1 (dense): Layer 3 (medium): Unloading: for both layers Mohr-Coulomb model: Layer 1: Layer 3: Computational Geotechnics Determination of Soil Stiffness Parameters

Eoed from Cone Penetration Test in Sands Cone Resistance: Correlation: Literature NC-Sand: a = 1 to 3 Vermeer’s Experience: a = 3 Alternatively: Computational Geotechnics Determination of Soil Stiffness Parameters

Undrained Triaxial Test on Clay Normally consolidated clay: Cu = undrained shear strength (or Su) Computational Geotechnics Determination of Soil Stiffness Parameters

Idealized and real stress-strain behavior of soils Computational Geotechnics Determination of Soil Stiffness Parameters

Idealized and real stress-strain behavior of soils Computational Geotechnics Determination of Soil Stiffness Parameters

Plate Loading Tests Duncan & Buchignani (1976) Computational Geotechnics Determination of Soil Stiffness Parameters

Plate Loading Tests Computational Geotechnics Determination of Soil Stiffness Parameters

Summary on Stiffness Parameters: Clay Undrained Conditions Do not use empirical relationships only. Get good quality experimental data from lab tests, cone penetration tests and vane tests Computational Geotechnics Determination of Soil Stiffness Parameters

Drained Behavior for Clays Computational Geotechnics Determination of Soil Stiffness Parameters

Drained Behavior for Clays Computational Geotechnics Determination of Soil Stiffness Parameters