Influence of mechanically-induced dilatation on the shape memory behavior of amorphous polymers at large deformation

In this study, we explore the influence of mechanically-induced dilatation on the thermomechanical and shape memory behavior of amorphous shape memory polymers (SMPs) at large deformation. The uniaxial tension, glass transition, stress relaxation and free recovery behaviors are examined with differe...

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Published in	Mechanics of time-dependent materials Vol. 23; no. 1; pp. 1 - 21
Main Authors	Hanzon, Drew W., Lu, Haibao, Yakacki, Christopher M., Yu, Kai
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 28.02.2019 Springer Nature B.V
Subjects	Behavior Characterization and Evaluation of Materials Classical Mechanics Constitutive models Deformation Engineering Martensitic transformations Polymer Sciences Polymers Recovery Relaxation time Shape memory Solid Mechanics Stress relaxation Stretching Superposition (mathematics) Thermomechanical properties Viscoelasticity Viscosity Thermomechanical behaviors Free volume Mechanically-induced dilatation Shape memory polymer Constitutive modeling
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ISSN	1385-2000 1573-2738
DOI	10.1007/s11043-018-9376-1

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Abstract	In this study, we explore the influence of mechanically-induced dilatation on the thermomechanical and shape memory behavior of amorphous shape memory polymers (SMPs) at large deformation. The uniaxial tension, glass transition, stress relaxation and free recovery behaviors are examined with different strain levels (up to 340% engineering strain). A multi-branched constitutive model that incorporates dilatational effects on the polymer relaxation time is established and applied to assist in discussions and understand the nonlinear viscoelastic behaviors of SMPs. It is shown that the volumetric dilatation results in an SMP network with lower viscosity, faster relaxation, and lower T g . The influence of the dilatational effect on the thermomechanical behaviors is significant when the polymers are subject to large deformation or in a high viscosity state. The dilation also increases the free recovery rate of SMP at a given recovery temperature. Even though the tested SMPs are far beyond their linear viscoelastic region when a large programming strain is applied, the free recovery behavior still follows the time-temperature superposition (TTSP) if the dilatational effect is considered during the transformation of time scales; however, if the programming strain is different, TTSP fails in predicting the recovery behavior of SMPs because the network has different entropy state and driving force during shape recovery. Since most soft active polymers are subject to large deformation in practice, this study provides a theoretical basis to better understand their nonlinear viscoelastic behaviors, and optimize their performance in engineering applications.
AbstractList	In this study, we explore the influence of mechanically-induced dilatation on the thermomechanical and shape memory behavior of amorphous shape memory polymers (SMPs) at large deformation. The uniaxial tension, glass transition, stress relaxation and free recovery behaviors are examined with different strain levels (up to 340% engineering strain). A multi-branched constitutive model that incorporates dilatational effects on the polymer relaxation time is established and applied to assist in discussions and understand the nonlinear viscoelastic behaviors of SMPs. It is shown that the volumetric dilatation results in an SMP network with lower viscosity, faster relaxation, and lower T g . The influence of the dilatational effect on the thermomechanical behaviors is significant when the polymers are subject to large deformation or in a high viscosity state. The dilation also increases the free recovery rate of SMP at a given recovery temperature. Even though the tested SMPs are far beyond their linear viscoelastic region when a large programming strain is applied, the free recovery behavior still follows the time-temperature superposition (TTSP) if the dilatational effect is considered during the transformation of time scales; however, if the programming strain is different, TTSP fails in predicting the recovery behavior of SMPs because the network has different entropy state and driving force during shape recovery. Since most soft active polymers are subject to large deformation in practice, this study provides a theoretical basis to better understand their nonlinear viscoelastic behaviors, and optimize their performance in engineering applications. In this study, we explore the influence of mechanically-induced dilatation on the thermomechanical and shape memory behavior of amorphous shape memory polymers (SMPs) at large deformation. The uniaxial tension, glass transition, stress relaxation and free recovery behaviors are examined with different strain levels (up to 340% engineering strain). A multi-branched constitutive model that incorporates dilatational effects on the polymer relaxation time is established and applied to assist in discussions and understand the nonlinear viscoelastic behaviors of SMPs. It is shown that the volumetric dilatation results in an SMP network with lower viscosity, faster relaxation, and lower Tg. The influence of the dilatational effect on the thermomechanical behaviors is significant when the polymers are subject to large deformation or in a high viscosity state. The dilation also increases the free recovery rate of SMP at a given recovery temperature. Even though the tested SMPs are far beyond their linear viscoelastic region when a large programming strain is applied, the free recovery behavior still follows the time-temperature superposition (TTSP) if the dilatational effect is considered during the transformation of time scales; however, if the programming strain is different, TTSP fails in predicting the recovery behavior of SMPs because the network has different entropy state and driving force during shape recovery. Since most soft active polymers are subject to large deformation in practice, this study provides a theoretical basis to better understand their nonlinear viscoelastic behaviors, and optimize their performance in engineering applications.
Author	Lu, Haibao Yakacki, Christopher M. Hanzon, Drew W. Yu, Kai
Author_xml	– sequence: 1 givenname: Drew W. surname: Hanzon fullname: Hanzon, Drew W. organization: Department of Mechanical Engineering, University of Colorado Denver – sequence: 2 givenname: Haibao surname: Lu fullname: Lu, Haibao organization: State Key Laboratory of Science and Technology on Advanced Composites in Special Environments, Harbin Institute of Technology – sequence: 3 givenname: Christopher M. surname: Yakacki fullname: Yakacki, Christopher M. organization: Department of Mechanical Engineering, University of Colorado Denver – sequence: 4 givenname: Kai orcidid: 0000-0001-9067-1673 surname: Yu fullname: Yu, Kai email: kai.2.yu@ucdenver.edu organization: Department of Mechanical Engineering, University of Colorado Denver
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Snippet	In this study, we explore the influence of mechanically-induced dilatation on the thermomechanical and shape memory behavior of amorphous shape memory polymers...
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SubjectTerms	Behavior Characterization and Evaluation of Materials Classical Mechanics Constitutive models Deformation Engineering Martensitic transformations Polymer Sciences Polymers Recovery Relaxation time Shape memory Solid Mechanics Stress relaxation Stretching Superposition (mathematics) Thermomechanical properties Viscoelasticity Viscosity
Title	Influence of mechanically-induced dilatation on the shape memory behavior of amorphous polymers at large deformation
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