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Constitutive model of cold drawing in polycarbonates
Arif Masud
, Alexander Chudnovsky
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Dive into the research topics of 'Constitutive model of cold drawing in polycarbonates'. Together they form a unique fingerprint.
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Keyphrases
Associative Flow Rules
33%
Cold Drawing
100%
Constitutive Equation
33%
Constitutive Integration Algorithm
33%
Constitutive Model
100%
Constraints Consistency
33%
Double Glass
66%
Draw Ratio
33%
Finite Strain
33%
Flow Theory
33%
Glass Transition
66%
Glassy State
33%
Hyperelastic
33%
Inelastic Deformation
33%
Isochoric
33%
Karush-Kuhn-Tucker Optimality Conditions
33%
Molecular Orientation
33%
Multiplicative Decomposition of the Deformation Gradient
33%
Numerical Results
33%
Operator Splitting Method
33%
Return Mapping Algorithm
33%
Rubbery State
66%
Spherical Part
33%
Strain Range
33%
Stress Space
33%
Stretching Process
33%
Volume-preserving
33%
Yield Surface
66%
Engineering
Cold Drawing
100%
Constitutive Equation
33%
Constitutive Model
100%
Deformation Gradient
33%
Drawing-In
100%
Finite Strain Range
33%
Flow Rule
33%
Flow Theory
33%
Glassy State
33%
Integration Algorithm
33%
Molecular Orientation
33%
Optimality
33%
Polycarbonate
100%
Stress Space
33%
Yield Surface
66%
Material Science
Finite Strain
33%
Glass Transition
66%
Molecular Orientation
33%
Polycarbonate
100%
Yield Surface
66%