Issue 18, 2012

Triple-shape memory effect of covalently crosslinked polyalkenamer based semicrystalline polymer blends

Abstract

Triple-shape memory polymers are developed by blending and crosslinking two semicrystalline polymers (poly(cyclooctene), PCO, and polyethylene, PE) towards creating two pronounced segregated crystalline domains within a covalently crosslinked network. The key thermo-mechanical properties of a series of a polyalkenamer and a polyolefin based polymer blends are characterised using thermogravimetric analysis (TGA), differential scanning calorimetry (DSC) and dynamic mechanical thermal analysis (DMTA). Furthermore, the versatile multi-shape memory functionality is demonstrated, and main shape memory response is evaluated by performing consecutive thermo-mechanical bending experiments based on a two-step programming process and subsequent progressive thermal recovery. The proposed approach, thanks to the excellent achieved shape memory properties, as well as the possibility of tailoring the thermo-mechanical response, is presented as a versatile method to increase the potential applications of these thermo-active materials by designing optimal compositions.

Graphical abstract: Triple-shape memory effect of covalently crosslinked polyalkenamer based semicrystalline polymer blends

Article information

Article type
Paper
Submitted
28 Dec 2011
Accepted
17 Feb 2012
First published
16 Mar 2012

Soft Matter, 2012,8, 4928-4935

Triple-shape memory effect of covalently crosslinked polyalkenamer based semicrystalline polymer blends

J. M. Cuevas, R. Rubio, L. Germán, J. M. Laza, J. L. Vilas, M. Rodriguez and L. M. León, Soft Matter, 2012, 8, 4928 DOI: 10.1039/C2SM07481H

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