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Physical aging and nonlinear viscoelasticity of amorphous glassy polymers
Aleksey D. Drozdov
Research output
:
Contribution to journal
›
Article
›
peer-review
7
Scopus citations
Overview
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Dive into the research topics of 'Physical aging and nonlinear viscoelasticity of amorphous glassy polymers'. Together they form a unique fingerprint.
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Keyphrases
Nonlinear Viscoelasticity
100%
Physical Aging
100%
Amorphous Glassy Polymers
100%
Aging Viscoelasticity
100%
Constitutive Equation
66%
Potential Well
66%
High Energy Level
66%
Numerical Simulation
33%
Strain Level
33%
Experimental Data Analysis
33%
Waiting Time
33%
Mechanical Loading
33%
Energy Landscape
33%
Free State
33%
Stress-free
33%
Amorphous Polymer
33%
Relaxation Rate
33%
Adjustable Parameters
33%
Stress-strain Relationship
33%
Viscoelastic Response
33%
Mechanical Energy
33%
Extra Degree of Freedom
33%
Poly(methyl methacrylate)
33%
Aging Time
33%
Rejuvenation
33%
Under Loading
33%
Nonlinear Viscoelastic Material
33%
Superposition Principle
33%
Comparison with Experimental Data
33%
Relaxation Test
33%
Glassy Polymers
33%
Annealing Temperature Effect
33%
Polymer Glasses
33%
Activated Processes
33%
Engineering
Energy Engineering
100%
Constitutive Equation
100%
Nonlinear Viscoelasticity
100%
Computer Simulation
50%
Strain Level
50%
Amorphous Polymer
50%
Annealing Temperature
50%
Degree of Freedom
50%
Stress-Strain Relations
50%
Mechanical Loading
50%
Mechanical Energy
50%
Polycarbonate
50%
Additional Degree
50%
Superposition Principle
50%
Aging Time
50%
Material Science
Amorphous Material
100%
Nonlinear Viscoelasticity
100%
Glassy Polymer
100%
Annealing
50%
Coarsening
50%
Stress-Strain Relations
50%
Poly Methyl Methacrylate
50%
Polycarbonate
50%
Polymeric Glass
50%