Keyphrases
Temperature Control
100%
Poly(methyl methacrylate)
100%
Friction
100%
Viscoelastic Relaxation
100%
Friction Force Microscopy
100%
Activation Energy
66%
Temperature Effect
33%
Polyethylene Terephthalate
33%
Quantitative Methods
33%
Polystyrene
33%
In Films
33%
Bulk Polymers
33%
Histogram
33%
Frictional Force
33%
Polymer Film
33%
Scanning Velocity
33%
Thin Polymer Films
33%
Relaxation Mechanism
33%
Micrometer Scale
33%
Rate Dependence
33%
Rubber
33%
Hindered Rotation
33%
Arrhenius-type
33%
Equivalent Time
33%
Mechanical Loss
33%
Secondary Relaxation
33%
Group Relaxations
33%
Time-temperature Equivalence
33%
Engineering
Controlled Friction Force
100%
Activation Energy
100%
Polymer Bulk
50%
Temperature Time
50%
Mean Value
50%
Frictional Force
50%
Histogram
50%
Arrhenius
50%
Rate Dependence
50%
Ethylene Terephthalate
50%
Bulk Energy
50%
Equivalent Time
50%
Thin Films
50%
Temperature Dependence
50%
Mechanical Loss
50%
Material Science
Poly Methyl Methacrylate
100%
Polymer Films
66%
Activation Energy
66%
Film
33%
Polystyrene
33%
Polyethylene Terephthalate
33%
Thin Films
33%
Chemical Engineering
Polymethyl Methacrylate
100%
Polystyrene
33%
Polyethylene Terephthalate
33%