Mechanical and Infrared Thermography Analysis of Shape Memory Polyurethane |
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Authors: | Elzbieta Alicja Pieczyska Michal Maj Katarzyna Kowalczyk-Gajewska Maria Staszczak Leszek Urbanski Hisaaki Tobushi Shunichi Hayashi Mariana Cristea |
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Affiliation: | 1. Institute of Fundamental Technological Research PAS, Warsaw, Poland 2. Aichi Institute of Technology, Toyota, Japan 3. SMP Technologies Inc, Tokyo, Japan 4. Petru Poni Institute of Macromolecular Chemistry, Iasi, Romania
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Abstract: | Multifunctional new material—polyurethane shape memory polymer (PU-SMP)—was subjected to tension carried out at room temperature at various strain rates. The influence of effects of thermomechanical couplings on the SMP mechanical properties was studied, based on the sample temperature changes, measured by a fast and sensitive infrared camera. It was found that the polymer deformation process strongly depends on the strain rate applied. The initial reversible strain is accompanied by a small drop in temperature, called thermoelastic effect. Its maximal value is related to the SMP yield point and increases upon increase of the strain rate. At higher strains, the stress and temperature significantly increase, caused by reorientation of the polymer molecular chains, followed by the stress drop and its subsequent increase accompanying the sample rupture. The higher strain rate, the higher stress, and temperature changes were obtained, since the deformation process was more dynamic and has occurred in almost adiabatic conditions. The constitutive model of SMP valid in finite strain regime was developed. In the proposed approach, SMP is described as a two-phase material composed of hyperelastic rubbery phase and elastic-viscoplastic glassy phase, while the volume content of phases is specified by the current temperature. |
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