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Date of IssueTitle Authors
2010 Application of artificial neural network for fatigue life prediction under interspersed mode-I spike overloadMohanty, J R; Verma, B B; Ray, P K; Parhi, D R K
2009 Application of Artificial Neural Network for Predicting Fatigue Crack Propagation Life of Aluminum AlloysMohanty, J R; Verma, B B; Parhi, D R K; Ray, P K
2009 Application of Artificial Neural Network for Predicting Fatigue Crack Propagation Life of Aluminum AlloysMohanty, J R; Verma, B B; Parhi, D R K; Ray, P K
2006 Comparison of constants in wheeler model under single overload and spot heating conditionsJoni, A; Ray, P K; Mohanty, J R; Verma, B B
8-May-2008 Continuous jute fiber reinforced laminated paper composite and reinforcement fiber-free paper laminateVerma, B B
2009 Continuous Jute Fibre Reinforced Laminated Paper Composite and Reinforcement-Fibre Free Paper LaminateVerma, B B
2006 Determination of Crack Coefficients for a Single Edge-Notch Tension Specimen Using Franc2D ProgramMohanty, J R; Joni, A; Ray, P K; Verma, B B
2010 Determination of fatigue crack growth rate from experimental data: A new approachMohanty, J R; Verma, B B; Ray, P K
2008 Evaluation of overload-induced fatigue crack growth retardation parameters using an exponential modelMohanty, J R; Verma, B B; Ray, P K
2000 Fatigue crack growth delay following overloadVerma, B B; Kumar, A; Ray, P K
2002 Fatigue crack growth retardation in spot heated mild steel sheetVerma, B B; Ray, P K
2006 Influence of crucible Roatation Speed on hardness, Cast structure and Impact PropertiesRay, B C; Mohanty, U K; Verma, B B
Dec-2011 Jute and cotton fiber reinforce paper laminates and their characterizationKumar, Pawan; Chaturvedi, A; Verma, B B
2009 Prediction of fatigue crack growth and residual life using an exponential model: Part I (constant amplitude loading)Mohanty, J R; Verma, B B; Ray, P K
2009 Prediction of fatigue crack growth and residual life using an exponential model: Part II (mode-I overload induced retardation)Mohanty, J R; Verma, B B; Ray, P K
2009 Prediction of fatigue life with interspersed mode-I and mixed-mode (I and II) overloads by an exponential model: Extensions and improvementsMohanty, J R; Verma, B B; Ray, P K
2010 Prediction of mode-I overload-induced fatigue crack growth rates using neuro-fuzzy approachMohanty, J R; Verma, B B; Ray, P K; Parhi, D R K
2009 Prediction of residual fatigue life under interspersed mixed-mode (I and II) overloads by Artificial Neural NetworkMohanty, J R; Parhi, D R K; Ray, P K; Verma, B B
2002 Spot heating induced fatigue crack growth retardationRay, P K; Verma, B B; Mohanthy, P K
2001 Study of fatigue behaviour of 7475 aluminium alloyVerma, B B; Atkinson, J D; Kumar, M
2005 A study on spot heating induced fatigue crack growth retardationRay, P K; Ray, P K; Verma, B B

 

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