Keyphrases
High Temperature
100%
Atomic Force Microscope
100%
Nanoindentation
100%
Polymer Flow
100%
Polymer Microtips
100%
Interface Temperature
50%
Polymer Deformation
50%
Nanometer Scale
25%
Order of Magnitude
25%
Shear Thinning
25%
Temperature Effect
25%
Elevated Temperature
25%
Film Thickness
25%
High Molecular Weight Polymer
25%
Indentation
25%
Bulk Material
25%
Glass Transition Temperature
25%
Indenter
25%
Nanoprobe
25%
Forced Displacement
25%
Displacement Rate
25%
Polymer Film
25%
Atomic Force Microscope Tips
25%
Isothermal Condition
25%
Material Behavior
25%
Continuum Simulation
25%
Polymer Properties
25%
Simulation Model
25%
Isothermal Model
25%
Mechanical Deformation
25%
Polymer Viscosity
25%
Non-isothermal Conditions
25%
Polymer Coil
25%
Temperature Conditions
25%
Tip Radius
25%
Polymer Glass Transition
25%
Indentation Process
25%
Sub-continuum
25%
Viscosity Gradient
25%
Non-isothermal Simulation
25%
Coil Radius
25%
Nanoembossing
25%
Modified Boundary Condition
25%
Engineering
Atomic Force Microscope
100%
Indentation
66%
Fluid Viscosity
66%
Interface Temperature
66%
Nanometre
33%
Shear Thinning
33%
Temperature Condition
33%
Isothermal
33%
Boundary Condition
33%
Bulk Material
33%
Elevated Temperature
33%
Force Displacement
33%
Displacement Rate
33%
Isothermal Condition
33%
Material Behavior
33%
Mechanical Deformation
33%
Polymer Molecular Weight
33%
Nonisothermal Condition
33%
Material Science
Indentation
100%
Nanoindentation
100%
Film Thickness
50%
Glass Transition Temperature
50%
Polymer Films
50%
Mechanical Deformation
50%
Polymer Property
50%