[1] Fracture
Mechanism MapsM F Ashby, C Gandhi and D M R Taplin, Acta Met, 1978, 25,
699-729
[2] Environment
& Stress State Synergisms during the Creep Fracture of Inconel X-750M C
Pandey, B F Dyson and D M R Taplin, Proc Roy Soc 1984, A398, 117-131
[3] Creep
Crack Growth in Alloy 800H under Complex Loading
C P
Hunter, R C Hurst and D M R Taplin, Materials at High Temperatures 1992, Vol
10, 144-152
[4] The
Multi-Barriers System for Industrial Waste Disposal & RecyclingA
Boccaccini, J Janszak, M Kopf and D M R Taplin, Environmental Technology, 1997,
17, 1193-1203
[5] Performance
Enhancement of Inconel X-750 during Creep via Optimum Heat Treatment and
Control of the Morphology of Grain Boundary CarbidesM C Pandey, D V V
Satyanayarana and D M R Taplin, Matls Science & Technology, 1995,10, 936-939
[6] Mechanical
Behaviour and Environmental Stability of Continuous Fibre Reinforced Glass
Ceramic Matrix CompositesG.West, D M R Taplin, A Boccaccini and M H Lewis,
International Journal of Ceramics Technology, 1996, 69, 34-43
[7] Fracture
Behaviour & Creep-Fatigue Performance of Glass CeramicsM H Lewis, A
Boccaccini and D M R Taplin, Physico-Chemical Mechanics of Materials, 1997, 32,
81-92
[8] Co-Sprayed
Aluminium CompositesR P Singh, M C Pandey and D M R Taplin, ProcIGCAR,
Trans IIM, 1997, 336-348
[9] Structural
Integrity for Downstream Operations in the Oil IndustryN V Bangaru, M J
Luton and D M R Taplin, ProcICF9, Sydney, 1998, 1, 91-95
[10] Fatigue
Performance of AZ91D Magnesium Alloy and its Composite Reinforced with SiCA
Bag, W Zhou and D M R Taplin TMS Trans, March 2000