PSI - Issue 14

Ashok Saxena / Procedia Structural Integrity 14 (2019) 774–781

781

Ashok Saxena/ Structural Integrity Procedia 00 (2018) 000 – 000

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7. References

ASTM Standard E1457-15 (2015), Standard Test Method for Measurement of Creep Crack Growth Rates in Metals, ASTM book of Standards, American Society for Testing and Materials, Philadelphia. ASTM Standard E2760-16, (2016) Standard Test Method for Measurement of Creep-Fatigue Crack Growth Rates, ASTM book of Standards, 2016, American Society for Testing and Materials, Philadelphia. Dowling , N.E. and Begley, J.A., (1976), Fatigue Crack Growth During Gross Plasticity and the J- Integral”, in Mechanics of Crack Growth, ASTM STP 590, American Society for Testing and Materials, pp. 82 – 103. Dowling, N.E. (1977) Crack Growth During Low-Cycle Fatigue of Smooth Axial Specimens, in Cyclic Stress-Strain and Plastic Deformation Aspects of Fatigue Crack Growth, ASTM STP 637, American Society for Testing and Materials, pp. 97 – 121. Floreen, S., and Kane, R. H., (1980) An Investigation of Creep-Fatigue-Environment Interactions in a Ni-base Superalloys, Fatigue of Engineering Materials and Structures, Vol. 2, pp 401-412. Gardner, B., Saxena, A., and Qu, J. [2001], Creep Crack Growth Parameters for Directionally Solidified Superalloys, International Conference on Fracture, Dec. 4-10, 2001. Hall DE, Hamilton BC, McDowell DL, Saxena A (1997), Creep Crack Growth Behavior of Aluminum Alloy 2519: Part II Numerical Analysis, in Effects of Temperature on Fatigue and Fracture, ASTM STP 1297, 19-36. Hall DE, McDowell, DL and Saxena A (1998) Crack Tip Parameters for Creep- Brittle Crack Growth”, Fatigue and Fracture of Engineering Materials and Structures, 387-401. Hamilton BC, Hall DE, Saxena A, McDowell DL (1997), Creep Crack Growth Behavior of Aluminum Alloy 2519: Part I-Experiments, in Effects of Temperature on Fatigue and Fracture, ASTM STP 1297, American Society for Testing and Materials, 3-18. Hutchinson, JW (1968), Plastic Stress and Strain Fields at a Crack Tip, J. Mechanics and Physics of Solids, 16: 13-31. Hui CY (1983), Steady-State Crack Growth in Elastic Power-law Creeping Material, Elastic-Plastic Fracture, Vol I, ASTM STP 803, American Society for Testing and Materials, Philadelphia, 573-593. Hui CY (1986), The Mechanics of Self-similar Crack Growth in Elastic Power-Law Creeping Material, International Journal of Solids and Structures, 22: 357-372. Ibanez, A. , Saxena, A., and Kang , J. , (2006) , Creep Behaviour of Directionally Solidified Nickel Based Superalloy, Journal of Strength, Fracture and Complexity, Vol. 4, 2006, pp75-81. Rice, J.R. and Rosengren, G.F., (1968), Plane Strain Deformation Near a Crack Tip in a Power- Law Hardening Material”, Journal of Mechanics and Physics of Solids, Vol. 16, pp. 1 – 12. Riedel H and Rice J.R. (1980), Tensile Cracks in Creeping Solids, Twelfth Conference, ASTM STP 700, American Society for Testing and Materials, Philadelphia, pp 112-130. Riedel H and Wagner (1981), The Growth of Macroscopic Cracks in Creeping Materials, Advances in Fracture Research, Pergamon Press, pp 683-690. Saxena, A., Liaw, P.K. and. Logsdon, W.A. (1986) Residual Life Prediction and Retirement for Cause Criteria for SSTG Upper Casings, Part II: Fracture Mechanics Analysis, Engineering Fracture Mechanics, Vol. 25, pp. 289-303. Saxena A (1998), Nonlinear Fracture Mechanics for Engineers, CRC Press, ISBN 0-8493-9496-1, 472 pages. Saxena A, Yagi K, Tabuchi M (1994), Creep Crack Growth Under Small Scale and Transition Creep Conditions in Creep-Ductile Materials, Fracture Mechanics: Twenty Fourth Volume, ASTM STP 1207, American Society for Testing and Materials, Philadelphia, 481-497. Saxena, A., (2007) Role of Nonlinear Fracture Mechanics in Assessing Fracture and Crack Growth in Welds”, Engineering Fracture Mechanics , Vol. 74, No. 6, pp 821-838. Yoon, K.B. and Saxena, A., (1991) An Interpretation of ΔJ for Cyclically Unsaturated Materials, International Journal of Fracture .