Strain-induced crystallization and mechanical properties of functionalized graphene sheet-filled natural rubber

Publication Year
2012

Type

Journal Article
Abstract
The effects of functionalized graphene sheets (FGSs) on the mechanical properties and strain-induced crystallization of natural rubber (NR) are investigated. FGSs are predominantly single sheets of graphene with a lateral size of several hundreds of nanometers and a thickness of 1.5 nm. The effect of FGS and that of carbon black (CB) on the strain-induced crystallization of NR is compared by coupled tensile tests and X-ray diffraction experiments. Synchrotron X-ray scattering enables simultaneous measurements of stress and crystallization of NR in real time during sample stretching. The onset of crystallization occurs at significantly lower strains for FGS-filled NR samples compared with CB-filled NR, even at low loadings. Neat-NR exhibits strain-induced crystallization around a strain of 2.25, while incorporation of 1 and 4 wt % FGS shifts the crystallization to strains of 1.25 and 0.75, respectively. In contrast, loadings of 16 wt % CB do not significantly shift the critical strain for crystallization. Two-dimensional (2D) wide angle X-ray scattering patterns show minor polymer chain alignment during stretching, in accord with previous results for NR. Small angle X-ray scattering shows that FGS is aligned in the stretching direction, whereas CB does not show alignment or anisotropy. The mechanical properties of filled NR samples are investigated using cyclic tensile and dynamic mechanical measurements above and below the glass transition of NR. (c) 2012 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys, 2012
Journal
Journal of Polymer Science Part B-Polymer Physics
Volume
50
Pages
718-723
Date Published
05/2012
ISBN
0887-6266
Accession Number
WOS:000302292800005
Documents

Times Cited: 59Ozbas, Bulent Toki, Shigeyuki Hsiao, Benjamin S. Chu, Benjamin Register, Richard A. Aksay, Ilhan A. Prud'homme, Robert K. Adamson, Douglas H.Aksay, Ilhan/B-9281-2008; Adamson, Douglas/C-8721-200961