Skip to main navigation
Skip to search
Skip to main content
University of Hertfordshire (Research Profiles) Home
Home
Researchers
Research output
Projects
Research units
Search by expertise, name or affiliation
Interaction between model bored piles and swelling London Clay
Tim Sands
School of Life and Medical Sciences
Water and Environment
Agriculture, Food and Veterinary Sciences
Centre for Climate Change Research (C3R)
Department of Psychology, Sport and Geography
Research output
:
Thesis
›
Doctoral Thesis
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Interaction between model bored piles and swelling London Clay'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Anchor pile
16%
Best Prediction
16%
Bored pile
100%
Bulb
16%
Clay
100%
Clay Strength
16%
Conceptual Model
16%
Effective Stress Principle
16%
Expansive Clay
16%
Free Field
16%
Grouting
16%
Heave
100%
Interface Shear
16%
London Clay
100%
Long-term Modelling
16%
Model pile
50%
Model-based Testing
16%
Pile Design
33%
Pile Foundation
16%
Pile Length
16%
Pile Test
33%
Relative Displacement
16%
Rowe Cell
16%
Shear Stress
33%
Shear Zone
16%
Simple Shear
16%
Steel pile
16%
Stress Reversal
16%
Subsidence
16%
Swelling Clay
100%
Swelling Pressure
66%
Tertiary Phase
16%
Testing Program
16%
Total Stress Method
16%
Tubular Steel
16%
Engineering
Average Shear Stress
33%
Drilled Hole
33%
Effective Stress Method
33%
Expansive Clay
33%
Free Field
33%
Full Scale
33%
Model Test
100%
Pile Design
66%
Pile Diameter
33%
Pile Foundations
33%
Relative Displacement
33%
Shear Zone
33%
Simple Shear
33%
Stress Reversal
33%
Test Pile
33%
Test Result
33%
Test Site
33%
Earth and Planetary Sciences
Clay Swelling
100%
London Clay
100%
Model Test
50%
Pile Foundations
16%
Shear Zone
16%
Subsidence
16%