Prof Yoshihide Fukahori PhD
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| 2010 |
| FEA Modelling of Schallamach Waves P. Gabriel, Y. Fukahori, A.G. Thomas and J.J.C. Busfield, Rubber Chemistry and Technology, Vol. 83, p. 358-368 |
| How does rubber truly slide between Schallamach waves and stick–slip motion? Y. Fukahori, P. Gabriel and J.J.C. Busfield, Wear, Vol. 269, pp. 854-866 |
| The mechanics of sliding friction between a rigid indenter and a rubber surface P. Gabriel, Y. Fukahori, A.G. Thomas & J.J.C. Busfield, Constitutive Models for Rubber VI edited by G. Heinrich, M. Kaliske, A. Lion & S. Reese, pp. 305-309. |
| The steady state abrasion of rubber: Why are the weakest rubber compounds so good in abrasion? H. Liang, Y. Fukahori, A.G. Thomas & J.J.C. Busfield, Wear, Vol. 268 p.756–762 |
2009 |
| Rubber Abrasion at Steady State H. Liang, Y. Fukahori, A.G. Thomas and J.J.C. Busfield, Wear, Vol 266, pp. 288-296 |
2008 |
| Cavitation in granulate filled rubber materials P. Kumar, A.G. Thomas, Y. Fukahori and J.J.C. Busfield, Constitutive Models for Rubber V’ edited by A. Boukamel, L. Laiarinandrasana, S. Meo & E. Verron, pp. 157-164 |
| Criteria for Crack Initiation during Rubber Abrasion Y. Fukahori, H. Liang and J.J.C. Busfield, Wear, Vol. 265, pp. 387-395 |
| Micro-structural Finite Element Modelling of the Stiffness of Filled Elastomers: The effect of filler number, shape and position in the rubber matrix V. Jha, A.G. Thomas, Y. Fukahori and J.J.C. Busfield, Constitutive Models for Rubber V edited by A. Boukamel, L. Laiarinandrasana, S. Meo & E. Verron, pp. 165-172 |
2007 |
| Generalized concept of the reinforcement of elastomers. Part 1: Carbon black reinforcement of rubbers y. Fukahori, Rubber Chemistry and Technology, Vol. 80, p. 701-725 |
| Modelling Blade Abrasion in Elastomers H. Liang, A.G. Thomas, Y. Fukahori and J.J.C. Busfield, Tire Technology International, pp 106-111 |
| Recycled Rubber: The Rubber Granulate-Virgin Rubber Interface P. Kumar, Y. Fukahori, A.G. Thomas and J.J.C. Busfield, Rubber Chemistry and Technology, Vol. 80, pp. 24-39 |
| Recycled rubber; the rubber granulate - virgin rubber interface P. Kumar, Y. Fukahori, A.G. Thomas & J.J.C. Busfield, Australasian Plastics and Rubber Institute Journal, December pp. 6-11 |
| Volume changes under strain resulting from the incorporation of rubber granulates into a rubber matrix P. Kumar, Y. Fukahori, A.G. Thomas & J.J.C. Busfield, Journal of Polymer Science Part B: Polymer Physics, Vol 45, pp 3169-3180. |
2005 |
| Modelling the abrasion process in elastomer materials
J.J.C. Busfield, H. Liang, Y. Fukahori & A.G. Thomas, Constitutive Models for Rubber IV. edited by L. Kari and P-E. Austrell, A.A. Balkema (Leiden), p. 139-143 |
2003 |
| The Mechanics and Mechanism of the Carbon Black Reinforcement of Elastomers Y. Fukahori, Rubber Chemistry and Technology, Vol. 76, pp 548-565 |
2002 |
| Superstructure Formation in Thermoplastic Elastomer and Oil Systems; Formation of a Novel Microcellular Porous Structure N. Mashita and Y. Fukahori, Polymer Journal, 34,719 |
2000 |
| Structure Formation and Dynamic Properties of Physical Gels Produced with Thermoplastic Elastomer and Monomer Y. Fukahori and N. Mashita, Polym. Adv. Technol., 11,1 |