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Home / Rheology of Glass
Rheology of Glass
Paperback

Rheology of Glass

Ioana Stanciu
$152.99
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The book entitled "Rheology of Glass" is structured into three chapters: soft glassy rheology, rheology of hard glassy materials, and rheology of deformation of glass under extreme conditions. Chapter 1 includes the subchapters: introduction, rheology, constitutive properties, step strain, linearity, behavior of the linear response function, creep compliance, viscoelastic spectra, steady state response (the flow curve), aging, the SGR model, constitutive equation, tensorial SGR model, rheological properties without aging, rheological aging (imposed strain, linear response, nonlinear response), rheological aging (imposed stress, linear response, nonlinear response), and discussion and conclusion. Chapter 2 includes the subchapters: introduction, nonaffine elastoplastic model, free energy of deformation, evolution of connectivity with strain, stress-strain relation, strain-dependent modulus, rate-dependent relaxation time, results and comparison, and conclusion.

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MORE INFO
Format
Paperback
Publisher
LAP Lambert Academic Publishing
Date
31 May 2024
Pages
88
ISBN
9786207650972

The book entitled "Rheology of Glass" is structured into three chapters: soft glassy rheology, rheology of hard glassy materials, and rheology of deformation of glass under extreme conditions. Chapter 1 includes the subchapters: introduction, rheology, constitutive properties, step strain, linearity, behavior of the linear response function, creep compliance, viscoelastic spectra, steady state response (the flow curve), aging, the SGR model, constitutive equation, tensorial SGR model, rheological properties without aging, rheological aging (imposed strain, linear response, nonlinear response), rheological aging (imposed stress, linear response, nonlinear response), and discussion and conclusion. Chapter 2 includes the subchapters: introduction, nonaffine elastoplastic model, free energy of deformation, evolution of connectivity with strain, stress-strain relation, strain-dependent modulus, rate-dependent relaxation time, results and comparison, and conclusion.

Read More
Format
Paperback
Publisher
LAP Lambert Academic Publishing
Date
31 May 2024
Pages
88
ISBN
9786207650972

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