Browse
All of SMARTech
Communities & Collections Date Author Title Subject Type
This Collection
Date Author Title Subject Type
Control Panel
Login Register
Statistics
View Statistics
Links
Help with SMARTech Policies of SMARTech About SMARTech

Valid RSS 1.0
Valid RSS 2.0

Spatial variability in soils: stiffness and strength

Show full item record

Please use this identifier to cite or link to this item: http://hdl.handle.net/1853/7213

Title: Spatial variability in soils: stiffness and strength
Author: Kim, Hyunki
Abstract: Geotechnical properties vary in space. Statistical parameters such as mean, deviation, and correlation length are characteristics for each sediment and formation history. The effects of spatial variability on the macro-scale mechanical properties of soils are investigated using Monte Carlo non-linear finite element simulations. Boundary conditions include 1) isotropic loading, 2) zero-lateral strain loading, 3) drained and undrained deviatoric loading, and 4) small-strain wave propagation. Emphasis is placed on identifying the effects of spatial variability on the stiffness and strength of soils, recognizing emergent phenomena, and creating the background for new geotechnical design methods that take into consideration spatial variability. The arithmetic mean of soil properties cannot be used to estimate the stiffness or strength of heterogeneous soils. Greater deviation and longer relative correlation length in the spatial distribution of soil properties yield a softer and weaker mechanical response. Load transfer concentrates along stiffer zones, leading to stress-focusing and lower K0 values. Drained loading promotes internal homogenization. Undrained deviatoric loading can cause percolation of internal weakness and shear strain localization. Spatial heterogeneity adds complexity to elastic wave propagation. Heterogeneous soil mixtures can be engineered to attain unique macroscale behavior
Type: Dissertation
URI: http://hdl.handle.net/1853/7213
Date: 2005-07-19
Publisher: Georgia Institute of Technology
Subject: Mixture
k0
Heterogeneity
Uncertainty
Wave propagation
Shear strain localization
Department: Civil and Environmental Engineering
Advisor: Committee Chair: Santamarina, Carlos; Committee Member: Frost, David; Committee Member: Mayne, Paul; Committee Member: Rix, Glenn; Committee Member: Ruppel, Carolyn
Degree: Ph.D.

Items in SMARTech are protected by copyright, with all rights reserved, unless otherwise indicated.

Files in this item

Files Size Format View
kim_hyunki__200507_phd.pdf 3.246Mb PDF View/ Open

This item appears in the following Collection(s)

Show full item record