Effect of temperature and strain rate on the compressive behaviour of supramolecular polyurethane

Tang, X., Siviour, C. R., Buckley, C. P., Feula, A. and Hayes, W. ORCID: https://orcid.org/0000-0003-0047-2991 (2015) Effect of temperature and strain rate on the compressive behaviour of supramolecular polyurethane. EPJ Web of Conferences, 94. 01046. ISSN 2100-014X doi: 10.1051/epjconf/20159401046

Abstract/Summary

Supramolecular polyurethanes (SPUs) possess thermoresponsive and thermoreversible properties, and those characteristics are highly desirable in both bulk commodity and value-added applications such as adhesives, shape-memory materials, healable coatings and lightweight, impact-resistant structures (e.g. protection for mobile electronics). A better understanding of the mechanical properties, especially the rate and temperature sensitivity, of these materials are required to assess their suitability for different applications. In this paper, a newly developed SPU with tuneable thermal properties was studied, and the response of this SPU to compressive loading over strain rates from 10−3 to 104 s−1 was presented. Furthermore, the effect of temperature on the mechanical response was also demonstrated. The sample was tested using an Instron mechanical testing machine for quasi-static loading, a home-made hydraulic system for moderate rates and a traditional split Hopkinson pressure bars (SHPBs) for high strain rates. Results showed that the compression stress-strain behaviour was affected significantly by the thermoresponsive nature of SPU, but that, as expected for polymeric materials, the general trends of the temperature and the rate dependence mirror each other. However, this behaviour is more complicated than observed for many other polymeric materials, as a result of the richer range of transitions that influence the behaviour over the range of temperatures and strain rates tested.

Item Type	Article
URI	https://reading-clone.eprints-hosting.org/id/eprint/63621
Item Type	Article
Refereed	No
Divisions	Life Sciences > School of Chemistry, Food and Pharmacy > Department of Chemistry
Publisher	EDP Sciences
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