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: Experimental results of effects of thermomechanical couplings occurring both in natural vulcanized rubber and rubber with self-healing polyurethane subjected to tension at different strain rates are presented. Mechanical characteristics were recorded by testing machine, while the sample temperature changes accompanying the deformation process was measured by infrared camera. The goal was to investigate influence of self-healing polyurethane on the rubber mechanical and thermomechanical properties. It was found that the introduction of the self-healing polyurethane ensures the higher elasticity and the lower tensile strength of the rubber. It was also confirmed that the material is very sensitive to the strain rate; the higher the strain rate, the higher the values of the stress and temperature increases have been obtained.
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Rocznik
Tom
Strony
206--209
Opis fizyczny
Bibliogr. 11 poz., fot., tab., wykr., wzory
Twórcy
autor
- Institute of Fundamental Technological Research, PAS, Pawińskiego 5b, 02-106 Warsaw, Poland
autor
- Institute of Fundamental Technological Research, PAS, Pawińskiego 5b, 02-106 Warsaw, Poland
autor
- Institute of Fundamental Technological Research, PAS, Pawińskiego 5b, 02-106 Warsaw, Poland
autor
- Institute of Fundamental Technological Research, PAS, Pawińskiego 5b, 02-106 Warsaw, Poland
autor
- Technology Centre IK4-CIDETEC, Miramon 196, 20009 San Sebastian, Spain
autor
- Technology Centre IK4-CIDETEC, Miramon 196, 20009 San Sebastian, Spain
Bibliografia
- [1] Thomson W. (Lord Kelvin): On the thermoelastic and thermomagnetic properties of matter. Transactions of the Royal Society of Edinburgh, vol. 20, no. 161, pp. 57-77, 1853.
- [2] Nowacki W.: Postępy teorii sprężystości. Państwowe Wydawnictwo Naukowe, Warszawa, 1986.
- [3] Chrysochoos A.: Infrared thermography applied to the analysis of material behaviour: a brief overview. QIRT Journal, vol. 9, no. 2, pp. 193-208, 2012.
- [4] Pieczyska E. A.., Nowacki W. K.., Tobushi H. and Hayashi S.: Thermomechanical properties of shape memory polymer subjected to tension in various conditions. QIRT Journal, vol. 6, pp. 189\–205, 2010.
- [5] Gough J.: A description of a property of Caoutchouc, or Indian rubber. Memoirs of the Literary and Philosophical Society of Manchester, vol. 1, pp. 288-295, 1805.
- [6] Joule J. P.: On some thermo-dynamic properties of solids. Philosophical Transactions of the Royal Society of London A, vol.149, pp. 91-131, 1859.
- [7] Samaca Martinez J. R, Le Cam J.-R., Balandraud X., Toussaint E., Caillard J.: Thermal Effects Accompanying the Deformation of Natural Rubber. Conference Proceedings, Constitutive Models for Rubber VIII, Nere Gil-Negrete, Asier Alonso, Taylor & Francis Group, pp. 505-510, 2013.
- [8] Wattrisse B., Caborgan R., Muracciole J.-M., Sabatier L., Chrysochoos A.: Dissipative and coupling effects accompanying the natural rubber elongation. Thermomechanics and Infra-Red Imaging, Conference Proceedings of the Society for Experimental Mechanics, vol. 7, pp. 25-31, 2011.
- [9] Ovalle Rodas C., Zairi F., Nait-Abdelaziz M.: Thermo-visco-hyperelastic model to describe the self-heating of rubber-type materials during low-cycle fatigue response. Conference Proceedings, Constitutive Models for Rubber VIII, Nere Gil-Negrete, Asier Alonso, Taylor & Francis Group, pp. 131-136, 2013.
- [10] Rekondo A., Martin R., Ruiz de Luzuriaga A., Cabanero G., Grande H. J., Odriozola I.: Catalyst-free room-temperature self-healing elastomers based on aromatic disulfide metathesis. Materials Horizons, no.1, pp. 237-240, 2014.
- [11] Staszczak M., Pieczyska E. A., Maj M., Urbański L., Tobushi H., Hayashi S.: Właściwości mechaniczne oraz zmiany temperatury polimeru z pamięcią kształtu w procesie rozciągania. PAK, vol.59, no. 9, pp. 1002-1005, 2013.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-695e16f2-6f7c-458f-8666-92a608767b0a