Mahomed, A and Bagheri Pormehr, N (2016):Effect of accelerated aging on the cross-link density of medical grade silicones.Bio-Medical Materials and Engineering, 27: 437–449
Mahomed A., Hukins DWL & Kukureka SN (2015): Effect of accelerated aging on the viscoelastic properties of a medical grade silicone. Bio-Medical Materials and Engineering, 25: 415-423
Mahomed, A and Kocharian, A (2015): Determining the solubility parameter and the cross-link density of medical grade silicones: Effect of increasing the range of swelling liquids. Bio-Medical Materials and Engineering, 25: 137–142
Moghadas, P; Mahomed, A; Shepherd, DET; Hukins, DWL; (2015):Wear of the Charité® lumbar intervertebral disc replacement investigated using an electro-mechanical spine simulator.Proceedings of the Institution of Mechanical Engineers Part H-Journal of Engineering in Medicine, 229(3): 264–268
Moghadas, P; Mahomed, A ; Hukins, DWL ; Shepherd, DET (2013). Effect of lubricants on friction in laboratory tests of a total disc replacement device. Proceedings of the Institution of Mechanical Engineers Part H-Journal of Engineering in Medicine 227(9): 988-993
Moghadas, P; Mahomed, A ; Hukins, DWL; Shepherd, DET (2013). Wear in metal-on-metal total disc arthroplasty. Proceedings of the Institution of Mechanical Engineers Part H-Journal of Engineering in Medicine 227(H4): 356-361
Moghadas, PM; Shepherd, DET; Hukins, DWL; Mahomed, A (2012). Polymer-on-Metal or Metal-on-Polymer Total Disc Arthroplasty Does It Make a Difference? SPINE 37(21): 1834-1838
Mahomed, A ; Moghadas, PM; Shepherd, DET ; Hukins, DWL; Roome, A; Johnson, S (2012). Effect of Axial Load on the Flexural Properties of an Elastomeric Total Disc Replacement SPINE 37(15): E908-E912
Moghadas, P; Mahomed, A; Hukins, DWL ; Shepherd, DET (2012). Friction in metal-on-metal total disc arthroplasty: Effect of ball radius. Journal of Biomechanics 45(3): 504-509
Mahomed A, Hukins DWL, Kukureka SN & Shepherd DET (2010). Effect of accelerated aging on the viscoelastic properties of Elast-EonTM: a polyurethane with soft poly(dimethylsiloxane) and poly(hexamethylene oxide) segments. Materials Science and Engineering: C- Materials for Biological Applications 30: 1298-1303
Mahomed A., Hukins DWL & Kukureka SN (2010). Swelling of medical-grade silicones in liquids and calculation of their cross-link densities. Medical Engineering & Physics 32: 298-303
Mahomed A, Chidi NM, Hukins DWL, Kukureka SN & Shepherd DET (2009). Frequency dependence of viscoelastic properties of medical grade silicones. Journal of Biomedical Materials Research Part B: Applied Biomaterials 89-B: 210-216
Mahomed A, Hukins DWL & Kukureka SN (2009). Viscoelastic properties of Silastic® medical-grade silicones: Implications for finger-joint replacement. Journal of Polymer Materials 26: 389-399
Mahomed A, Hukins DWL & Kukureka SN (2009). Viscoelastic properties of medical grade silicones in tension. Journal of Polymer Materials 26: 199-206
Hukins DWL, Mahomed A & Kukureka SN (2008). Accelerated aging for testing polymeric biomaterials and medical devices. Medical Engineering & Physics 30: 1270-1274
Chuter GSJ, Cloke DJ, Mahomed A, Partington PF & Green SM (2007). Wear analysis of failed acetabular polyethylene: A comparison of analytical methods. Journal of Bone & Joint Surgery 89-B: 273-279
Book chapter
Mahomed A (2012). Chapter 10: Ageing processes of polymers in the body. In: Durability and reliability of medical polymers. Ed. M Jenkins. Woodhead Publishing Limited, Cambridge, UK
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