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Inverse relaxation in polypropylene
A. D. Drozdov
, N. Dusunceli
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
Overview
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Keyphrases
Number of Cycles
100%
Maximum Strain
100%
Preloading
100%
Polypropylene
100%
Strain Rate
66%
Relaxation Test
66%
Numerical Simulation
33%
Cycle Frequency
33%
Kinetic Equation
33%
Master Curve
33%
Rate Spectra
33%
Relaxation Rate
33%
Plastic Strain
33%
Constitutive Model
33%
Kinematic Equations
33%
Plastic Flow
33%
Uniaxial Tensile
33%
Relaxation Process
33%
Relaxation Spectrum
33%
Amorphous Region
33%
Yield Decline
33%
Crystalline Region
33%
Viscoplasticity
33%
Viscoplastic Material
33%
Stress Relaxation
33%
Yield Strain
33%
Relaxation Curve
33%
Semicrystalline Polymers
33%
Minimum Stress
33%
Isotactic Polypropylene
33%
Tensile Relaxation
33%
Post-yield Region
33%
Engineering
Strain Rate
100%
Computer Simulation
50%
Good Agreement
50%
Kinetic Equation
50%
Master Curve
50%
Tensiles
50%
Plastic Strain
50%
Constitutive Model
50%
Plastic Flow
50%
Relaxation Process
50%
Stress Relaxation
50%
Semicrystalline Polymer
50%
Crystalline Region
50%
Amorphous Region
50%
Material Science
Strain Rate
100%
Polypropylene
100%
Amorphous Material
50%
Crystalline Material
50%
Plastic Flow
50%
Stress Relaxation
50%