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Effects of overburden on joint spacing in layered rocks
A. Jain,
B. B. Guzina
,
V. R. Voller
Civil, Environmental, and Geo- Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
17
Scopus citations
Overview
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Dive into the research topics of 'Effects of overburden on joint spacing in layered rocks'. Together they form a unique fingerprint.
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Keyphrases
Layered Rock
100%
Joint Spacing
100%
Applied Strain
42%
Layer Thickness
28%
Overburden Depth
28%
Opposing Effects
14%
Shear Strength
14%
Prestress
14%
Physical Parameters
14%
Nonlinear Equations
14%
Range of Values
14%
Layered Systems
14%
Matrix Interface
14%
Depth Effect
14%
Extension Strain
14%
Rock Bed
14%
Joint Form
14%
New Joint
14%
Layer Thickness Ratio
14%
Shear Slip
14%
Engineering
Joints (Structural Components)
100%
Overburden
100%
Applied Strain
33%
Layer Thickness
33%
Increasing Depth
22%
Physical Parameter
11%
Predicted Value
11%
Matrix Interface
11%
Prestress
11%
Linear Equation
11%
Shear Strength
11%
Thickness Ratio
11%