INIS
piles
100%
energy
100%
loading
100%
soils
83%
heat exchangers
50%
heat flow
33%
thawing
16%
physical properties
16%
melting points
16%
finite element method
16%
strong-coupling model
16%
fluid flow
16%
convection
16%
deformation
16%
expansion
16%
compressibility
16%
interfaces
16%
interactions
16%
freezing
16%
thermoplastics
16%
permeability reduction
16%
capture
16%
tubes
16%
fluids
16%
volume
16%
cryogenics
16%
physics
16%
performance
16%
plasticity
16%
solids
16%
ice
16%
mechanical properties
16%
buoyancy
16%
modeling
16%
Engineering
Models
100%
Mechanical Model
100%
Energy Engineering
100%
Soil Mass
75%
Fluid
50%
Exchanger
50%
Deformation
25%
Melting Point
25%
Mechanical Properties
25%
Performance
25%
Dimensionality
25%
Finite Element Modeling
25%
Concrete Pile
25%
Shaft Resistance
25%
Convection
25%
Point Depression
25%
Compressibility
25%
Numerical Experiment
25%
Constitutive Modeling
25%
Tubes (Components)
25%
Reduction
25%
Pile Shaft
25%
Keyphrases
Convection-conduction
25%
Cyclic Freeze-thaw
25%
Changes in Physical Properties
25%
Pile Model
25%
Thermoplastic Deformation
25%
Embedded Heat Exchanger
25%