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Temperature-dependent mechanical behaviour of PMMA: Experimental analysis and modelling
Adel Abdelwahab
Mechanical Engineering
Dubai Campus Research
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peer-review
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Dive into the research topics of 'Temperature-dependent mechanical behaviour of PMMA: Experimental analysis and modelling'. Together they form a unique fingerprint.
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Keyphrases
Temperature Effect
100%
Poly(methyl methacrylate)
100%
Mechanical Behavior
100%
Two-layer
50%
Uniaxial Tension
50%
Room Temperature
25%
Material Model
25%
Temperature Rise
25%
Plastic Behavior
25%
C 60
25%
Loading Conditions
25%
Elastoplastic
25%
Viscoplastic Model
25%
Flow Curve
25%
Optimization Tool
25%
Viscoplasticity
25%
Constitutive Material Model
25%
Elasto-plastic Analysis
25%
Three-point Bending Loading
25%
Material Parameter Identification
25%
Quasi-brittle Fracture
25%
Glass Transition Point
25%
Flow Optimization
25%
Engineering
Material Model
100%
Room Temperature
50%
Material Parameter
50%
Temperature Increase
50%
Transition Point
50%
Brittle Fracture
50%
Loading Condition
50%
Point Bending
50%
Flow Curve
50%
Plastic Analysis
50%
Material Science
Poly Methyl Methacrylate
100%
Viscoplasticity
50%
Glass Transition
25%
Brittle Fracture
25%