Doctoral theses
Search command : Author="Κοπιδάκης"
And Author="Γεώργιος"
Current Record: 18 of 81
|
Identifier |
000448355 |
Title |
Rheology of polymeric networks with double dynamics |
Alternative Title |
Ρεολογία πολυμερικών δικτύων με διπλή δυναμική |
Author
|
Carillo, Consiglia
|
Thesis advisor
|
Βλασσόπουλος, Δημήτριος
|
Reviewer
|
Loppinet, Benoit
Πετεκίδης, Γεώργιος
Evelyne van Ruymbeke
Βαμβακάκη, Μαρία
Γλυνός, Εμμανουήλ
Giovanni Ianniruberto
|
Abstract |
Double polymeric networks represent an emerging class of responsive materials combining different viscoelastic properties (due to topological constraints, reversible and/or permanent crosslinkers) to achieve versatile performance. Knowledge of their rheology and its link to the structure are essential for the use of double dynamics networks (DDNs) in ubiquitous applications. Therefore, it is desired to obtain a deep understanding of DDN dynamics in both the linear and nonlinear regimes of deformation, to characterize their multi-scale responses. In this thesis, rigorous experimental studies of the linear and nonlinear rheology of two classes of DDNs are presented. They involve (i) a well-characterized model system inspired by interpenetrated networks and comprising a mixture of telechelic star polymers and entangled linear chains, and (ii) an industrial double network with both permanent and reversible crosslinkers. Complementary SAXS measurements and tube-based modeling were also used in conjunction with rheometry to identify the role of various molecular parameters such as the lifetime and density of crosslinkers, topological constraints, molar mass polydispersity, and external stimuli like temperature and concentration, on the viscoelastic response of the networks. The systematic investigation performed yielded generic observations and guidelines to tailor the rheological behavior of the multi-responsive networks. To understand the conformational changes under application of a strong shear field, a protocol was developed using an entangled polystyrene network as paradigm. Ex situ small-angle neutron scattering measurements were performed on appropriately quenched samples at different accumulated strain and shear flow rates. The results contribute to the understanding of the link between rheological properties and molecular deformation of linear chains and may serve as a guideline for tuning the rheological response of polymeric networks.
|
Language |
English |
Subject |
Dynamic networks |
|
Macromolecules |
|
Polymers |
|
Μακρομόρια |
|
Πολυμερή |
Issue date |
2022-07-22 |
Collection
|
School/Department--School of Sciences and Engineering--Department of Materials Science and Technology--Doctoral theses
|
|
Type of Work--Doctoral theses
|
Permanent Link |
https://elocus.lib.uoc.gr//dlib/a/4/0/metadata-dlib-1653907701-164196-14620.tkl
|
Views |
609 |
Digital Documents
|
|
No permission to view document.
It won't be available until: 2025-07-29
|