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Linear Viscoelasticity of Gluten: Decoupling of Relaxation Mechanisms
Vasileios Kontogiorgos
Biopolymer Research Centre
School of Applied Sciences
Department of Physical and Life Sciences
Research output
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Contribution to journal
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Article
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peer-review
11
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Citations (Scopus)
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Dive into the research topics of 'Linear Viscoelasticity of Gluten: Decoupling of Relaxation Mechanisms'. Together they form a unique fingerprint.
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Keyphrases
Water Content
100%
Linear Viscoelasticity
100%
Gluten
100%
Relaxation Mechanism
100%
Water Influence
100%
Dynamic Data
50%
System Characteristics
50%
Poroelasticity
50%
Relaxation Behavior
50%
Protein Chain
50%
Relaxation Spectrum
50%
Stress Relaxation
50%
Gluten Network
50%
Numerical Analysis
50%
Loss Modulus
50%
Reptation
50%
Relaxation Dynamics
50%
Direct Conversion
50%
Time-temperature Superposition
50%
Tikhonov Regularization
50%
Viscoelastic Relaxation
50%
Mesoporous
50%
Linear Viscoelastic Region
50%
Nanopore
50%
Relaxation Process
50%
Gluten Secondary Structure
50%
Creep Analysis
50%
Standard Frequency
50%
Gluten Proteins
50%
Frequency Sweep
50%
Laplace Transform
50%
Relaxation Analysis
50%
Time Relaxation
50%
Creep Data
50%
Creep Measurement
50%
Self-similarity
50%
Engineering
Linear Viscoelasticity
100%
Creep
100%
Stress Relaxation
50%
Regularization
50%
Relaxation Process
50%
Sweep Frequency
50%
Frequency Standard
50%
Loss Modulus
50%
Temperature Superposition Principle
50%
Direct Conversion
50%
Creep Data
50%
Secondary Structure
50%
Nanopore
50%
Laplace Transform
50%
Material Science
Linear Viscoelasticity
100%
Creep
100%
Stress Relaxation
33%
Nanopore
33%
Chemistry
Relaxation
100%
Linear Viscoelasticity
100%
Stress Relaxation
10%
Frequency Standard
10%
Loss Modulus
10%
Secondary Structure
10%
Critical State
10%
Meso Porosity
10%
Chemical Engineering
Water Content
100%
Stress Relaxation
50%