Keyphrases
Screw pile
100%
Sand
57%
Uplift Capacity
25%
Screw Anchors
24%
Single Helix
21%
Discrete Element Method
18%
Material Point Method
18%
Pile Installation
17%
Centrifuge Modelling
16%
Pile Geometry
16%
Renewable Energy Consumption
16%
Helix
14%
Offshore Jacket
13%
Floating Offshore Wind
13%
Offshore Renewables
12%
Lateral Load
11%
Failure Mechanism
11%
Design Optimization
11%
In-service Performance
10%
Axial Capacity
10%
Installation Torque
10%
Jacket Foundation
10%
Plate Anchor
10%
Dense Sand
9%
Pile Design
9%
Rotary
9%
Helix pitch
8%
Lateral Capacity
7%
Large Deformation
6%
Offshore Applications
6%
Stress Distribution
6%
Wind Applications
6%
Centrifuge Test
6%
Floating Wind
6%
Medium Dense Sand
6%
Installation Effects
6%
Jacket Structure
6%
Vertical Force
5%
Driven piles
5%
Reaction Force
5%
Underwater Noise
5%
Cyclic Performance
5%
Deformability
5%
Displacement Accumulation
5%
Wind Turbine
5%
Torque Prediction
5%
Installed Capacity
5%
Cone Penetration Test
5%
Design Procedure
5%
Offshore Installations
5%
Installation Process
5%
Low Noise
5%
Axial Compressive Load
5%
Detrimental Effects
5%
Vertical Displacement
5%
Pile Head
5%
Foundation Solution
5%
Offshore Jacket Structure
5%
Engineering
Anchors
48%
Installation Requirement
41%
Element Method
24%
Discrete Element
24%
Energy Application
22%
Tensiles
20%
Dense Sand
19%
Material Point Method
18%
Pile Installation
17%
Centrifuge
15%
Lateral Loads
14%
Finite Element Method
13%
Shallower
13%
Offshore Renewable Energy
13%
Axial Capacity
12%
Wind Turbine
12%
Deep Water
12%
Jacket Structure
11%
Test Result
11%
Service Performance
10%
Failure Mechanism
10%
Driven Pile
10%
Reaction Force
9%
Pile Head
9%
Digital Elevation Model
9%
Pile Design
9%
Cyclic Loading
9%
Offshore Foundation
8%
Design Method
8%
Applicability
7%
Installation Process
7%
Compressive Force
6%
Centrifuge Testing
6%
Detrimental Effect
6%
Large Deformation
6%
Compression Load
6%
Cone Resistance
5%
Cone Penetration Test
5%
Optimised Design
5%
Axial Loading
5%
Formability
5%
Design Procedure
5%
Embedment
5%
Design Optimization
5%