Self-recovery and fatigue of double-network gels with permanent and reversible bonds

Aleksey D. Drozdov; Jesper de Claville Christiansen; Necmi Dusunceli; Catalina Gabriela Sanporean

doi:10.1002/polb.24798

Self-recovery and fatigue of double-network gels with permanent and reversible bonds

Aleksey D. Drozdov^*, Jesper de Claville Christiansen, Necmi Dusunceli, Catalina Gabriela Sanporean

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

8 Citationer (Scopus)

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Abstract

Double-network (DN) gels subjected to cyclic deformation (stretching up to a fixed strain followed by retraction down to the zero stress) demonstrate a monotonic decrease in strain with time (self-recovery). Observations show that the duration of total recovery varies in a wide interval (from a few minutes to several days depending on composition of the gel), and this time is strongly affected by deformation history. A model is developed for the kinetics of self-recovery. Its ability to describe stress–strain diagrams in cyclic tests with various periods of recovery is confirmed by comparison with observations on several DN gels. Numerical simulation reveals pronounced enhancement of fatigue resistance in multi-cycle tests with stress- and strain-controlled programs when subsequent cycles of deformation are interrupted by intervals of recovery.

Originalsprog	Engelsk
Tidsskrift	Journal of Polymer Science, Part B: Polymer Physics
Vol/bind	57
Udgave nummer	8
Sider (fra-til)	438-453
Antal sider	16
ISSN	0887-6266
DOI	https://doi.org/10.1002/polb.24798
Status	Udgivet - 15 apr. 2019

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10.1002/polb.24798

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Citationsformater

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abstract = "Double-network (DN) gels subjected to cyclic deformation (stretching up to a fixed strain followed by retraction down to the zero stress) demonstrate a monotonic decrease in strain with time (self-recovery). Observations show that the duration of total recovery varies in a wide interval (from a few minutes to several days depending on composition of the gel), and this time is strongly affected by deformation history. A model is developed for the kinetics of self-recovery. Its ability to describe stress–strain diagrams in cyclic tests with various periods of recovery is confirmed by comparison with observations on several DN gels. Numerical simulation reveals pronounced enhancement of fatigue resistance in multi-cycle tests with stress- and strain-controlled programs when subsequent cycles of deformation are interrupted by intervals of recovery.",

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T1 - Self-recovery and fatigue of double-network gels with permanent and reversible bonds

AU - Drozdov, Aleksey D.

AU - Christiansen, Jesper de Claville

AU - Dusunceli, Necmi

AU - Sanporean, Catalina Gabriela

PY - 2019/4/15

Y1 - 2019/4/15

N2 - Double-network (DN) gels subjected to cyclic deformation (stretching up to a fixed strain followed by retraction down to the zero stress) demonstrate a monotonic decrease in strain with time (self-recovery). Observations show that the duration of total recovery varies in a wide interval (from a few minutes to several days depending on composition of the gel), and this time is strongly affected by deformation history. A model is developed for the kinetics of self-recovery. Its ability to describe stress–strain diagrams in cyclic tests with various periods of recovery is confirmed by comparison with observations on several DN gels. Numerical simulation reveals pronounced enhancement of fatigue resistance in multi-cycle tests with stress- and strain-controlled programs when subsequent cycles of deformation are interrupted by intervals of recovery.

AB - Double-network (DN) gels subjected to cyclic deformation (stretching up to a fixed strain followed by retraction down to the zero stress) demonstrate a monotonic decrease in strain with time (self-recovery). Observations show that the duration of total recovery varies in a wide interval (from a few minutes to several days depending on composition of the gel), and this time is strongly affected by deformation history. A model is developed for the kinetics of self-recovery. Its ability to describe stress–strain diagrams in cyclic tests with various periods of recovery is confirmed by comparison with observations on several DN gels. Numerical simulation reveals pronounced enhancement of fatigue resistance in multi-cycle tests with stress- and strain-controlled programs when subsequent cycles of deformation are interrupted by intervals of recovery.

KW - double-network gel

KW - fatigue

KW - multi-cycle deformation

KW - self-recovery

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U2 - 10.1002/polb.24798

DO - 10.1002/polb.24798

M3 - Journal article

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JO - Journal of Polymer Science, Part B: Polymer Physics

JF - Journal of Polymer Science, Part B: Polymer Physics

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Self-recovery and fatigue of double-network gels with permanent and reversible bonds

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