Control Theory in Rheology
portes grátis
Control Theory in Rheology
An Introduction to Practical Applications
Borg, Tommi
Springer International Publishing AG
06/2025
295
Dura
9783031882470
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1.Theoretical and Practical Rheology.- 2.The Principle of Control Theory (CT).- 3.Basics of distribution Functions.- 4.Steady Shear Viscosity.- 5.Complex Viscosit.- 6.Relaxation Modulus.- 7.Converting RED function to MWD.- 8.From MWD to RED and back again.- 9.From measured viscosity data to MWD.- 10.Start-up and transient flow effects.- 11.Elongational viscosity.- 12.Temperature and viscoelastic relations.- 13.Computation Cases.- 14.Overview of the Unified Model.- 15.Hemorheological method for analyses.- 16.Comparison With other known models.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Practical polymer flow analysis with scientific methods;Detecting Molecular Weight Distribution (MWD) of polymers;Theoretical and practical rheology of macromolecules;Generalized Maxwell model for polymers and macromolecules;Formulas for shear, complex, and transient viscosity;Elastic and viscous components in rheological models;Relaxation modulus and spectrum at varying temperatures;Start-up and transient flow effects in viscoelasticity;Boltzmann Superposition Principle for transient viscosity;Long-Chain Branching (LCB) and polymer structure distribution;Elongational and uniaxial viscosity models in rheology;Unified Model of viscoelasticity for polymers;Control Theory for macromolecular rheology;Hemorheological method for blood flow analyses;Polymer flow modeling with Control Theory principles;Modelling of macromolecules with Control Theory principles;Rheology insights from TomCoat and Tommi Borg;Rheologically Effective Distribution (RED);Viscosity of plastics in capillary tube;Viscoelasticity by Maxwell models and relaxation spectra
1.Theoretical and Practical Rheology.- 2.The Principle of Control Theory (CT).- 3.Basics of distribution Functions.- 4.Steady Shear Viscosity.- 5.Complex Viscosit.- 6.Relaxation Modulus.- 7.Converting RED function to MWD.- 8.From MWD to RED and back again.- 9.From measured viscosity data to MWD.- 10.Start-up and transient flow effects.- 11.Elongational viscosity.- 12.Temperature and viscoelastic relations.- 13.Computation Cases.- 14.Overview of the Unified Model.- 15.Hemorheological method for analyses.- 16.Comparison With other known models.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Practical polymer flow analysis with scientific methods;Detecting Molecular Weight Distribution (MWD) of polymers;Theoretical and practical rheology of macromolecules;Generalized Maxwell model for polymers and macromolecules;Formulas for shear, complex, and transient viscosity;Elastic and viscous components in rheological models;Relaxation modulus and spectrum at varying temperatures;Start-up and transient flow effects in viscoelasticity;Boltzmann Superposition Principle for transient viscosity;Long-Chain Branching (LCB) and polymer structure distribution;Elongational and uniaxial viscosity models in rheology;Unified Model of viscoelasticity for polymers;Control Theory for macromolecular rheology;Hemorheological method for blood flow analyses;Polymer flow modeling with Control Theory principles;Modelling of macromolecules with Control Theory principles;Rheology insights from TomCoat and Tommi Borg;Rheologically Effective Distribution (RED);Viscosity of plastics in capillary tube;Viscoelasticity by Maxwell models and relaxation spectra
