Thermomechanical Constitutive Modeling in Shape Memory Polymer of Polyurethane Series-Reference-Cited by-同舟云学术

Thermomechanical Constitutive Modeling in Shape Memory Polymer of Polyurethane Series

Published:1997-08 Issue:8 Volume:8 Page:711-718
ISSN:1045-389X
Container-title:Journal of Intelligent Material Systems and Structures
language:en
Short-container-title:Journal of Intelligent Material Systems and Structures

Author:

Tobushi H.,Hashimoto T.¹,Hayashi S.²,Yamada E.³

Affiliation:

1. Department of Mechanical Engineering, Aichi Institute of Technology, 1247 Yachigusa, Yagusa-cho, Toyota, 4 70-03, Japan

2. Nagoya Research & Development Center, Mitsubishi Heavy Industries, Ltd, Iwatsuka-cho, Nakamura-ku, Nagoya 453, Japan

3. Churyo Engineering, Ltd., Iwatsuka-cho, Nakamura-ku, Nagoya 453, Japan

Abstract

In order to describe the thermomechanical properties in shape memory polymer of polyurethane series, a thermomechanical constitutive model was developed by modifying a standard linear viscoelastic model. The model involved a slip element due to internal friction and took account of thermal expansion. In order to describe the variation in mechanical properties due to the glass transition, coefficients in the model were expressed by a single exponential function of temperature. Several kinds of thermomechanical tests were carried out. The proposed theory expressed well the thermomechanical properties of the material, such as shape fixity, shape recovery and recovery stress. The proposed model is useful for design of shape-memory polymer elements, in which the amount of recovery deformation, the tightening force and the working start and completion temperatures are specified.

Publisher

SAGE Publications

Subject

Mechanical Engineering,General Materials Science

Link

http://journals.sagepub.com/doi/pdf/10.1177/1045389X9700800808

Reference9 articles.

1. Findley, W. N. , Lai, J. S. and Onaran, K. 1976. "Creep and Relaxation of Nonlinear Viscoelastic Materials," North-Holland, 57-64.

2. High Moisture Permeability Polyurethane for Textile Applications

3. Lockett, F. J. , 1972, "Nonlinear Viscoelastic Solids," Academic Press, London: 34-34.

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