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| In press |
| Silica-Rubber Microstructure Visualised in three-dimensions by Focused Ion Beam Scanning Electron Microscopy L.B. Tunnicliffe, A.G. Thomas and J.J.C. Busfield, Journal of Microscopy |
2012 |
| A new approach to characterize the onset tearing in rubber. K. Sakulkaew, A.G. Thomas and J.J.C. Busfield, Constitutive Models for Rubber VII edited by S. Jerrams and N. Murphy |
| Energy losses at small strains in filled rubbers L.B. Tunnicliffe, A.G. Thomas, J.J.C. Busfield, Constitutive Models for Rubber VII edited by S. Jerrams and N. Murphy |
| Fatigue peeling of rubber T.L.M. Baumard, A.G. Thomas and J.J.C. Busfield, Constitutive Models for Rubber VII edited by S. Jerrams and N. Murphy |
2011 |
| Effects of types of fillers and filler loading on the properties of silicone rubber composites S.M. Kong, M. Mariatti and J.J.C. Busfield, Journal of Reinforced Plastics and Composites DOI: 10.1177/0731684411416267 |
| Explicit finite element modelling of the impaction of metal press-fit acetabular components H. Hothi, J.J.C. Busfield & J.C. Shelton, Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, Vol. 225, p301-314 |
| Fatigue life prediction of bonded rubber components at an elevated temperature
S. Asare and J.J.C. Busfield, Plastics, Rubber and Composites: Macromolecular Engineering, Vol. 40, 194-200 |
| Light scattering and transmission studies of nanofiller particulate size, matrix cavitation, and high strain interfacial dewetting behavior in silica-elastomer composites L.B. Tunnicliffe, A.G. Thomas and J.J.C. Busfield, Journal of Polymer Science Part B: Polymer Physics, Vol 49, 1084-1092 |
| Micromechanical Models of Young’s Modulus of NR/Organoclay Nanocomposites D.J. Lowe, A.V. Chapman, S. Cook and J.J.C. Busfield, Journal of Polymer Science Part B: Polymer Physics, 49, 1621–1627 |
| Modelling of elastomeric materials and products J.J.C. Busfield, Plastics, Rubber and Composites: Macromolecular Engineering, Vol. 40, 151-153 |
| Natural Rubber Nanocomposites by in situ Modification of Clay D.J. Lowe, A.V. Chapman, S. Cook and J.J.C. Busfield, Macromolecular Materials and Engineering, Vol. 296, DOI: 10.1002/mame.201000395 |
| The dynamic properties of fumed silica filled SBR as function of pre-strain N. Suphadon, J.J.C. Busfield, Polymer Testing, Vol. 30, pp. 779–783 |
| The effect of the rate of strain on tearing in rubber K. Sakulkaew, A.G. Thomas and J.J.C. Busfield, Polymer Testing, Vol. 30 pp.163-172. |
2010 |
| Axial compression of hollow elastic spheres R. Shorter, J. Smith, V. Coveney and J.J.C. Busfield, Journal of Mechanics of Materials and Structures, Vol. 5-5, p. 693-705 |
| 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 |
| Getting Smarter J.J.C. Busfield and J. Adams, Materials World, 18, 4, p 19-21 |
| 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 |
| Influence of interface geometry on rubber friction P. Gabriel, A.G. Thomas and J.J.C. Busfield, Wear, Vol. 268, p. 747–750 |
| Modelling Friction and Abrasion in Rubber J.J.C. Busfield, Constitutive Models for Rubber VI edited by G. Heinrich, M. Kaliske, A. Lion & S. Reese, pp. 287-293. |
| Piezoresistive polymer composites based on EPDM and MWNTs for strain sensing applications P. Ciselli, L. Lu, J.J.C. Busfield and T. Peijs, e-Polymers 2010, no. 14 |
| Reversible electrical behaviour with strain for a carbon black filled rubber V. Jha, A.G. Thomas, M. Bennett and J.J.C. Busfield, Journal of Applied Polymer Science, Vol. 116, 541–546 |
| 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 |
| The visco-elastic behaviour of elastomers at large pre-strains
N. Suphadon, A.G. Thomas and J.J.C. Busfield, Constitutive Models for Rubber VI edited by G. Heinrich, M. Kaliske, A. Lion & S. Reese, pp. 153-157. |
| The viscoelastic behaviour of rubber under a small simple shear oscillation superimposed on a large pure shear. N. Suphadon, A.G. Thomas and J.J.C. Busfield, Polymer Testing, Vol. 29, pp. 440-444 |
| Viscoelastic behaviour of rubber under a complex loading II: The effect of carbon black N. Suphadon, A.G. Thomas and J.J.C. Busfield, Journal of Applied Polymer Science, Vol. 117, 1290–1297 (2010) |
2009 |
| Cyclic stress softening in elastomer components S. Asare, A.G. Thomas & J.J.C. Busfield, Rubber Chemistry and Technology, Vol. 82, p 104-112 |
| Multifunctional elastomer nanocomposites based on EPDM and carbon nanotubes P. Ciselli, L. Lu, J.J.C. Busfield and T. Peijs, Materials Research Society Symposium Proceedings, Vol. 1143, 1143-KK02-05 |
| Rubber Abrasion at Steady State H. Liang, Y. Fukahori, A.G. Thomas and J.J.C. Busfield, Wear, Vol 266, pp. 288-296 |
| The elastic behaviour of a rubber cylinder under combined torsion and tension loading. N. Suphadon and J.J.C. Busfield, Plastics, Rubber and Composites: Macromolecular Engineering, Vol 38, p.337-342 |
| The viscoelastic behaviour of rubber under a complex loading
N. Suphadon, A.G. Thomas and J.J.C. Busfield, Journal of Applied Polymer Science, Vol 113, pp. 693-699. |
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 |
| Modelling elastomer behaviour using experimental evidence and physical models J.J.C. Busfield, Tire Technology International 2008, pp. 86-88 |
| Modelling of the effect of fillers on the stiffness of rubbers V. Jha, A.A. Hon, A.G. Thomas and J.J.C. Busfield, Journal of Applied Polymer Science, Vol. 107, pp. 2572-2577 |
| Rate Transitions in Fatigue Crack Growth of Elastomers I.C. Papadopoulos, A.G. Thomas and J.J.C. Busfield, Journal of Applied Polymer Science, Vol. 109, pp. 1900-1910 |
| The mechanics of frictional sliding at the elastomer / rigid surface interface P. Gabriel, A.G. Thomas and J.J.C. Busfield, Tire Technology International 2008, pp. 28-30 |
| The Physical Behaviour of Elastomers Containing Hollow Spherical Fillers R. Shorter, A.G. Thomas, J.J.C. Busfield and J.D. Smith, Constitutive Models for Rubber V edited by A. Boukamel, L. Laiarinandrasana, S. Meo & E. Verron (2008) pp. 107-112 |
2007 |
| 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. |
2006 |
| Selection of elastomers for a synthetic heart valve. S. Baxter, J.J.C. Busfield and T. Peijs, Service Life Prediction of Elastomers. Edited by V. Coveney. p 169-175 |
| Using Finite Element Analysis techniques to predict failure in elastomers J.J.C. Busfield and W.H. Ng, Service Life Prediction of Elastomers. Edited by V. Coveney. p177-191 |
2005 |
| Electrical and Mechanical Behaviour of Filled Rubber 3: Dynamic loading and the rate of recovery. J.J.C. Busfield, A.G. Thomas and K. Yamaguchi, Journal of Polymer Science: Part B: Polymer Physics, Vol. 43, p. 1649-1661 |
| Investigating the behaviour at the rubber granulate, virgin rubber interface P. Kumar, J.J.C. Busfield and A.G. Thomas, Tire Technology International, p. 74-78 |
| Investigation of interfacial slippage on filler reinforcement in carbon-black filled elastomers J.J.C. Busfield, V. Jha, A.A. Hon & A.G. Thomas, Constitutive Models for Rubber IV. edited by L. Kari and P-E. Austrell, A.A. Balkema (Leiden), p. 459-464 |
| 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 |
| Prediction of fatigue crack growth using finite element analysis techniques applied to three-dimensional elastomeric components J.J.C. Busfield, V. Jha, H. Liang, I.C. Papadopoulos and A.G. Thomas, Plastics, Rubbers and Composites, Vol 34 No 8, p 349-356 |
| Transitions in tear and fatigue crack growth in elastomers J.J.C. Busfield, I.C. Papadopoulos & A.G. Thomas, Constitutive Models for Rubber IV. edited by L. Kari and P-E. Austrell, A.A. Balkema (Leiden), p. 145-151 |
2004 |
| Electrical and Mechanical Behaviour of Filled Elastomers 2: The Effect of Swelling and Temperature. J.J.C. Busfield, A.G. Thomas and K. Yamaguchi, Journal of Polymer Science: Part B: Polymer Physics, Vol. 42, 2161-2167 |
| Stiffness prediction of MT carbon-black-filled elastomer systems using FEM. J.J.C. Busfield, A.A. Hon and A.G. Thomas, Tire Technology International, pp 100-104 |
2003 |
| Constitutive Models for Rubber III J.J.C. Busfield and A.H. Muhr, Balkema (Lisse, The Netherlands) |
| Electrical and Mechanical Behaviour of Filled Rubber 1: The Effect of Strain K. Yamaguchi, J.J.C. Busfield and A.G. Thomas, Journal of Polymer Science Part B: Polymer Physics, Vol 41 (2003), pp 2079-2089 |
| Filler Reinforcement in Rubber Carbon-black Systems A.A. Hon, J.J.C. Busfield and A.G. Thomas, Constitutive Models for Rubber III. Edited by J.J.C. Busfield and A. Muhr pp. 301-308 |
| Predicting cyclic fatigue crack growth using finite element analysis techniques applied to three-dimensional elastomeric components. I.C. Papadopoulos, H. Liang, J.J.C. Busfield and A.G. Thomas, Constitutive Models for Rubber III. Edited by J.J.C. Busfield and A. Muhr pp. 33-40 |
| The Effect of Swelling and Temperature on the Electrical and Mechanical Behaviour of a Filled Rubber K. Yamaguchi, J.J.C. Busfield and A.G. Thomas, Constitutive Models for Rubber III. Edited by J.J.C. Busfield and A. Muhr pp. 343-348 |
2002 |
| Contributions of time dependent and cyclic crack growth to the crack growth behaviour of non strain-crystallising elastomers J.J.C. Busfield, K. Tsunoda, C.K.L. Davies and A.G. Thomas, Rubber Chemistry and Technology, Vol. 75, p. 643-656 |
2001 |
| The creep and recovery of filled and unfilled elastomers A.G. Thomas, J.J.C. Busfield and K. Yamaguchi, Constitutive Models for Rubber II. Edited by D. Besdo, R.H. Schuster, J. Ihlemann. pp. 173-178. |
| The stiffness of simple bonded elastomer bushes: Part A - Initial behaviour J.J.C. Busfield and C.K.L. Davies, Plastics, Rubber and Composites, Vol. 30, (2001) p.243-257 |
2000 |
| Effect of materials variables on the tear behaviour of a non-crystallising elastomer K. Tsunoda, J.J.C. Busfield, C.K.L. Davies and A.G. Thomas, Journal of Materials Science, Vol. 35, (2000), p. 5187-5198. |
| Microstructure of ceramic foams H.X. Peng, Z. Fan, J.R.G. Evans and J.J.C. Busfield, Journal of the European Ceramic Society, Vol, 20, (2000), pp.807-813. |
| The effect of liquids on the dynamic properties of carbon black filled natural rubber as a function of pre-strain J.J.C. Busfield, C. Deeprasertkul and A.G. Thomas, Polymer, Vol. 41, (2000) p. 9219-9225. |
1999 |
| Application of fracture mechanics for the fatigue life prediction of carbon black filled elastomers J.J.C. Busfield, A.G. Thomas and M.F. Ngah, Constitutive Models for Rubber. Edited by A. Dorfmann and A. Muhr. pp. 249-256. |
| Crack Growth and predicting failure under complex loading in carbon black filled elastomers. J.J.C. Busfield, C.H.H. Ratsimba and A.G. Thomas, Finite Element Analysis of Elastomers. Edited by D. Boast and V. Coveney London, Professional Engineering Publishing. pp235-250. |
| Effect of liquids on the dynamic properties of carbon black filled natural rubber as a function of pre-strain J.J.C. Busfield, C. Deeprasertkul and A.G. Thomas, Constitutive Models for Rubber. Edited by A. Dorfmann and A. Muhr. pp. 87-94. |
| Indentation of rubber sheets with spherical indentors J.J.C. Busfield and A.G. Thomas, Constitutive Models for Rubber. Edited by A. Dorfmann and A. Muhr. pp. 289-300. |
| Indentation Tests on Elastomer Blocks J.J.C. Busfield and A.G. Thomas, Rubber Chemistry and Technology, Vol. 72, (1999) p. 876-894. |
| Predicting the performance of bonded filled rubber mounts in compression using data measured in a simple shear deformation J.J.C. Busfield, A.G. Thomas and S. Hasshim, Journal of natural Rubber Research (1999), Vol 2(2) p. 88-98 |
1998 |
| Finite Element - Assisted modelling of a thermoplastic pultrusion process using powder imprgnated yarn J.J.C. Busfield, K. Friedrich, S. Haffner and P.J. Hogg, Composite Science and Technology, Vol. 58, (1998) p.1371-1380. |
| Finite Element - Assisted modelling of the microscopic impregnation process in thermoplastic pre-forms J.J.C. Busfield, K. Friedrich, S. Haffner and P.J. Hogg, Applied Composite Materials, Vol. 5, (1998) p.237-255. |
1997 |
| Crack Growth and Strain Induced Anisotropy in Carbon Black Filled Natural Rubber J.J.C. Busfield, C.H. Ratsimba and A.G. Thomas, Journal of Natural Rubber Research, Vol. 12, No. 3, (1997) p.131-141. |
1996 |
| Aspects of fracture in rubber components J.J.C. Busfield, C.K.L. Davies and A.G. Thomas, Progress in Rubber and Plastics Technology, Vol. 12, No. 3, (1996) p.191. |
Created: 03:47 Wednesday 22nd May 2013