In this work, we mathematically derive the conditions for which empirical rheometric relations such as the Cox–Merz rule and Gleissle mirror relationship are satisfied. We consider the Wagner integral constitutive framework, which is a special limiting case of the Kaye–Bernstein Kearsley Zapas (K-BKZ) constitutive equation to derive analytical expressions for the complex viscosity, the steady shear viscosity, and the transient stress coefficient in the start-up of steady shear. We use a fractional Maxwell liquid model as the linear relaxation modulus or memory kernel within a non-linear integral constitutive framework. This formulation is especially well-suited for describing complex fluids that exhibit a broad relaxation spectrum and can ...
none2The purpose of this paper is twofold: from one side we attempt to provide a general introductio...
The interconversion equation of linear viscoelasticity defines implicitly the interrelations between...
PTDC/EMS-ENE/3362/2014-POCI010145-FEDER-016665In this chapter, we present a brief description of exi...
The relaxation processes of a wide variety of soft materials frequently contain one or more broad re...
The relaxation processes of a wide variety of soft materials frequently contain one or more broad re...
Abstract A slight rearrangement of the classical Cox and Merz rule suggests that the shear stress va...
In this paper, we use ideas from fractional calculus to study the rheological response of soft mater...
This paper examines the oscillatory behavior of complex viscoelastic systems with power law like rel...
This study addresses the stress–strain relaxation functions of solid polymers in the framework of th...
The Kramers-Kronig relations for magnitude and phase of a linear causal filter are used to derive an...
Abstract: A mathematical model of the viscoelastic phenomenon, employing the fractional derivative M...
Zener’s model for viscoelastic solids replaces Hooke’s law σ = 2με(u) + λ tr(ε(u)) I, relating the s...
This work presents a brief introduction to fractional calculus and its application to some problems ...
Zener’s model for viscoelastic solids replaces Hooke’s law σ = 2με(u) + λ tr(ε(u)) I, relating the s...
A slight rearrangement of the classical Cox and Merz rule suggests that the shear stress value of st...
none2The purpose of this paper is twofold: from one side we attempt to provide a general introductio...
The interconversion equation of linear viscoelasticity defines implicitly the interrelations between...
PTDC/EMS-ENE/3362/2014-POCI010145-FEDER-016665In this chapter, we present a brief description of exi...
The relaxation processes of a wide variety of soft materials frequently contain one or more broad re...
The relaxation processes of a wide variety of soft materials frequently contain one or more broad re...
Abstract A slight rearrangement of the classical Cox and Merz rule suggests that the shear stress va...
In this paper, we use ideas from fractional calculus to study the rheological response of soft mater...
This paper examines the oscillatory behavior of complex viscoelastic systems with power law like rel...
This study addresses the stress–strain relaxation functions of solid polymers in the framework of th...
The Kramers-Kronig relations for magnitude and phase of a linear causal filter are used to derive an...
Abstract: A mathematical model of the viscoelastic phenomenon, employing the fractional derivative M...
Zener’s model for viscoelastic solids replaces Hooke’s law σ = 2με(u) + λ tr(ε(u)) I, relating the s...
This work presents a brief introduction to fractional calculus and its application to some problems ...
Zener’s model for viscoelastic solids replaces Hooke’s law σ = 2με(u) + λ tr(ε(u)) I, relating the s...
A slight rearrangement of the classical Cox and Merz rule suggests that the shear stress value of st...
none2The purpose of this paper is twofold: from one side we attempt to provide a general introductio...
The interconversion equation of linear viscoelasticity defines implicitly the interrelations between...
PTDC/EMS-ENE/3362/2014-POCI010145-FEDER-016665In this chapter, we present a brief description of exi...