PUBLICATIONS
1. “The Hardness of Cementite”, JISI, vol. 203, 1965, p.184.
M.J. Collins and D.A. Woodford
2. “Low Temperature Creep of Tempered Martensite”, JISI, vol. 203, 1965, p. 285.
D.A. Woodford and S.G. Glover
3. “Electrical-Resistivity Changes During Jerky Flow in Beryllium Copper”, JIM, vol. 94, 1966.
D.A. Woodford
4. “Creep Ductility and Dimensional Instability of Nickel at 500 and 525oC”, Trans. ASM, vol. 59, 1966, p. 398.
D.A. Woodford
5. “Some Observations on the Marstraining of a 12% Chromium Steel”, Metallurgica, Jan. 1967, p. 3.
D.A. Woodford
6. “Distribution of Boron in an Austenitic Steel Inferred from the Observation of Helium Gas Bubbles After Neutron Irradiation”, Journal Nucl. Mat., vol. 24, 1967, p. 118.
D.A. Woodford, J.P. Smith and J. Moteff
7. “Observation of Helium Bubbles in an Irradiated and Annealed Austenitic Alloy”, JISI, Jan. 1969, p.70.
D.A. Woodford, J.P. Smith and J. Moteff
8. “Effect of Helium Gas Bubbles on the Creep Ductility of an Austenitic Alloy”, Journal Nucl. Mat., vol. 29, 1969, p. 103.
D.A. Woodford, J.P. Smith and J. Moteff
9. “Constant-Load Creep Data Interpreted in Terms of the Stress Dependence of Dislocation Velocity”, Trans. AIME, vol. 239, 1967, p. 655.
D.A. Woodford
10. “Analysis of Creep Curves for a Magnesium-Zirconium Alloy”, JIM, Vol. 96, 1968, p. 371.
D.A. Woodford
11. “Strain-Rate Sensitivity as a Measure of Ductility”, Trans ASM, vol. 62, 1969, p. 291.
D.A. Woodford
12. “A Parametric Approach to Creep Damage”, Met. Sci. Journal, vol. 2, 1969, p.50.
D.A. Woodford
13. “Density Changes During Creep in Nickel”, Met. Sci. Journal, vol. 3, 1969, p. 234.
D.A. Woodford
14. “Measurement and Interpretation of the Stress Dependence of Creep at Low Stresses,” Mat. Sci. Eng., vol. 4, 1969, p. 146.
D.A. Woodford
15. “An Approach to the Understanding of Brittle Behavior of Steel at Elevated Temperatures,” Mat. Sci. Eng., vol. 5, 1969, p. 303.
D.A. Woodford and R. M. Goldhoff
16. “Microstructural Aspects of Fracture Toughness in a Cobalt-Base Superalloy,” Second Int. Conf. on Strength of Metals and Alloys”, Asilomar 1970.
D.A. Woodford and C.J. McMahon, Jr.
17. “Strain Rate Dependent Plastic Flow Behavior of Metals”, ASM Seminar on Inhomogeneity of Plastic Deformation, 1971.
D. Lee and D.A. Woodford
18. “A Deformation-Induced Phase Transformation Involving a Four-Layer Stacking Sequence in a Co-Fe Alloy”, Met. Trans., vol. 2, 1971, p. 3223.
D.A. Woodford and H.J. Beattie
19. “Cavitation-Erosion-Induced Phase Transformation in Alloys”, Met. Trans., vol. 3, 1972, p. 1137.
D.A.Woodford
20. “Thermal Fatigue Characterization of Cast Cobalt and Nickel-Base Superalloys”, Conf. on Fatigue at Elevated Temperatures, Storrs, CT, 1972.
D.F. Mowbray, D.A. Woodford and D. E. Brandt
21. “The Evaluation of Creep Damage in a CrMoV Steel”, ASTM STP-515, 1971, p. 89.
R.M. Goldhoff and D.A. Woodford
22. “The Order Effect in Creep Damage Accumulation”, Dusseldorf Conf. on Creep Resistant Steels, 1972.
D.A.Woodford
23. “A Critical Assessment of the Life Fraction Rule for Creep-Rupture Under Nonsteady Conditions of Stress and Temperature”, Int. Conf. on Creep and Fatigue, 1973,
D.A. Woodford
24. “Observations and Interpretation of Crack Propagation Under Conditions of Transient Thermal Strain”, Int. Conf. on Creep and Fatigue, 1973.
D.F. Mowbray and D. A. Woodford
25. “Graphical Solution of a Simple Creep Equation for IN-718”, Mat. Sci. Eng., vol. 16, 1974, p. 75.
D.A. Woodford
26. “A Graphical Optimization Procedure for Time-Temperature Rupture Parameters”, Mat. Sci. Eng., vol. 15, 1974, p. 169.
D.A. Woodford
27. “Effect of Material Characteristics and Test Variables on Thermal Fatigue of Cast Superalloys”, Mat. Sci. Eng., vol.16, 1974, p.5.
D.A. Woodford and D. F. Mowbray
28. “The Role of Grain Boundaries in High Temperature Fatigue”, Grain Boundaries in Engineering Materials, Claitors, 1974, p. 421.
D.A. Woodford and L.F. Coffin, Jr.
29. “The Effect of Grain Boundary Orientation on Creep Rupture of IN-738”, Grain Boundaries in Engineering Materials, Claitors, 1974, p. 365.
D.A. Woodford
30. “Measurement of the Mechanical State of a Low Alloy Steel at Elevated Temperature,” Met. Trans., vol. 6A, 1975, p. 1693.
D.A. Woodford
31. “The Effect of Grain Boundary Orientation on Creep and Rupture of IN-738 and Nichrome”, Met. Trans., vol. 5, 1974, p. 2005.
D.A. Woodford
32. “The Effect of Temperature Cycling Under Load on Time to Rupture in Tantalum Carbide Reinforced Superalloys”, Conf. on In-Situ Composites, CISC II, Xerox Publ., 1976, p. 211.
D.A. Woodford
33. “Some New Approaches in the Analysis of High-Temperature Deformation”, Journ. Eng. Mat. and Tech., vol. 98, 1976, p.2.
D.A. Woodford
34. “Load Relaxation Testing of a Superplastic Superalloy”, Met. Trans. vol. 7A, 1976, p. 1244.
D.A. Woodford
35. “The Effect of Temperature and Environment on Low Cycle Fatigue of Two Superalloys”, Second Int. Conf. on Mech. Behavior of Materials, ASM, 1976, p.893.
D.A. Woodford, H.D. Solomon and L.F. Coffin, Jr.
36. “Creep and Rupture of an Advanced Fiber Strengthened Eutectic Composite Superalloy”, Met. Trans., vol. 8A, 1977, p. 639.
D.A. Woodford
37. “The Effect of Temperature Cycling on Creep Rupture of Eutectic and Conventional Superalloys”, Mat. Sci. and Eng., vol. 24, 1976, p. 257.
D.A. Woodford
38. “Load Relaxation Studies”, Univ. of Cornell Conf. on Advances in Metal Deformation: Phenomena and Mechanisms, 1976.
D. A. Woodford
39. “The Effect of Temperature Cycling on Rupture Life of Superalloys”, Int. Conf. on Fracture, ICF 4, Univ. of Waterloo, vol. 2, 1977, p. 803.
D.A. Woodford
40. “The Effect of Temperature Cycling on Rupture Strength of a Tantalum Carbide Strengthened Cobalt Base Eutectic”, Met. Trans., vol. 8A, 1977 p. 2016.
D.A. Woodford
41. “Creep Analysis of Zircaloy-4 and its Application in the Prediction of Residual Stress Relaxation”, J. Nucl. Mat., vol. 79, 1979, p. 345.
D.A. Woodford
42. “Thermal Fatigue Evaluation of Superalloy Eutectics”, Conf. on In-Situ Composites, CISC III, Ginn Publ,. 1979, p. 410.
D.A. Woodford
43. “High Cycle Fatigue of Tantalum Carbide Reinforced Nickel Base Eutectics at Room Temperature”, Met. Trans., vol. 10A, p. 1303.
D.E. Graham and D.A. Woodford
44. “Thermal Fatigue Testing of Gas Turbine Materials”, Int. Conf. on Mech. Behavior of Materials, ICM III, vol. 2, 1979, p. 33.
D.A. Woodford
45. “Tube Erosion in Fluidized Beds”, Fifth Int. Conf. on Erosion by Liquid and Solid Impact, Cambridge, 1979.
R.T. Wood and D.A. Woodford
46. “Creep Damage and the Remaining Life Concept”, Journ. Eng. Mat. Tech., 1979,vol. 101, p. 311.
D.A. Woodford
47. “An Assessment of the Role of Test Environment in Creep Rupture Life Prediction”, Int. Conf. on Engineering Aspects of Creep, Sheffield, 1980.
D.A. Woodford
48. “The Effect of High Temperature Air Exposure on the Stress Rupture Life of Nickel and Cobalt Base Superalloys”, Int. Conf. on Superalloys, Seven Springs, 1980.
D.A. Woodford and R.H. Bricknell
49. “The Influence of Overlay Coatings on High Cycle Fatigue of an Advanced Tantalum Carbide Strengthened Eutectic Composite”, Met. Trans., vol. 12A, 1981, p. 329.
D.E. Graham and D.A. Woodford
50. “Control of Temper Embrittlement in a Ni-Cr-Mo-V Steel by Combining Intercritical and Low Temperature Austenitizing Heat Treatments”, Met. Trans. A., vol. 11A, 1980, p.1951.
D.A. Woodford and R.W. Stepien
51. “Environmental Embrittlement of a Cast Nickel Base Superalloy”, Met. Trans. vol. 12A, 1981, p. 299.
D.A. Woodford
52. “Embrittlement of Nickel Following High Temperature Air Exposure”, Met. Trans.vol. 12A, 1981, p. 425.
R.H. Bricknell and D.A. Woodford
53. “Creep Damage Concepts and Applications to Design Life Prediction”, Int. Conf. on Creep and Fracture of Engineering Materials and Components, Swansea, U.K., March, 1981.
D.A. Woodford
54. “Cavitation in Nickel During Oxidation and Creep”, Int. Conf. Swansea, 1981, p. 249.
R.H. Bricknell and D.A. Woodford
55. “The Mechanism of Cavity Formation During High Temperature Oxidation ofNickel”, Acta. Met., vol. 30, 1982, p. 257.
R.H. Bricknell and D.A. Woodford
56. “Grain Boundary Penetration of Oxygen in Nickel and the Effect of Boron Additions”, Met. Trans., vol. 12A, 1981, p. 1467.
D.A. Woodford and R.H. Bricknell
57. “Environmental Effects in the Iron-Base Alloy IN903”, Met. Trans., vol. 12A, 1981, p. 1673.
R.H. Bricknell and D.A. Woodford
58. “Air Embrittlement of a Cobalt-Base Superalloy”, Met. Trans., vol. 12A, 1981, p.1945.
D.A. Woodford and R.H. Bricknell
59. “Coating for Balanced Environmental/Mechanical Behavior”, Int. Conf. High Temperature Corrosion, NACE, March, 1981.
J.R. Rairden, M.R. Jackson, M.F.X. Gigliotti, M.F. Henry, J.R. Ross, W.A. Seaman, D.A. Woodford and S.W. Yang
60. “Environmental Embrittlement of High Temperature Alloys by Oxygen”, Treatise on Materials Science and Technology, Academic Press, vol. 25, 1983, p. 157.
D.A. Woodford and R.H. Bricknell
61. “Penetration and Embrittlement of Grain Boundaries by Sulfur and Chlorine-Preliminary Observations in Nickel and a Nickel-Base Superalloy”, Scripta Met., vol. 17, 1983, p. 1341.
D.A. Woodford and R.H. Bricknell
62. “Effect of Particle Size and Hardness on Material Erosion in Fluidized Beds”, Proc. Sixth Int. Conf. on Erosion by Liquid and Solid Impact, Edt. J.E. Field and N.S. Corney, Cambridge, England, (1983), paper 56.
D.A. Woodford and R.T. Wood
63. “Prevention and Reversal of Oxygen Embrittlement in Nickel”, Metal Science, vol. 18, 1984, p. 265.
R.H. Bricknell and D.A. Woodford
64. “Perspectives in Creep and Stress Rupture”, JSME, I. Mech. E., ASME, ASTM, “Int. Conf. on Creep”, April, 1986, p. 11.
D.A. Woodford
65. “The Kinetics of Intergranular Oxygen Penetration in Nickel and its Relevance to Weldment Cracking”, Met. Trans., Vol. 9A, 1988, p. 2305.
R.G. Iacocca and D.A. Woodford
66. “A Simple Procedure for Assessing Environmental Effects on Fatigue Failure of Solder Joints”, Scripta Met., Vol. 22, 1988, p. 1543.
T.G. Lacey and D.A. Woodford
67. “Intergranular Sulfur Attack in Nickel and Nickel-Base Alloys”, “Superalloys”, Seven Springs, 1988, p. 795.
J.P. Beckman and D.A. Woodford
68. “The Role of Oxygen Attack in Weld Heat Affected Zone Cracking”, Conference on Physical Simulation of Welding, Hot Forming, and Continuous Casting, May, 1988.
R.G. Iacocca and D.A. Woodford
69. “Opportunities and Challenges in Engineering Applications – New Materials, New Testing Methods, New Standards”, Japanese Society for Materials Science, special publication July 15, 1988, p. 1.
D.A. Woodford
70. “The Role of Oxygen Attack in Weld Heat-Affected Zone Cracking”, in Physical Simulation of Welding, Hot Forming and Continuous Casting, CANMET, 1988, p. IV-33.
R. G. Iacocca and D. A. Woodford
71. “Gas Phase Embrittlement by Metal Vapors”, Met. Trans., Vol. 20A, 1989, p. 184.
J.P. Beckman and D.A. Woodford
72. “The Remaining Life Paradox”, Int. Conf. Fossil Power Plant Rehabilitation ASM International, 1989, p. 149.
D.A. Woodford
73. “Gas Phase Embrittlement and the Nucleation of Creep Cavities”, Scripta Met, April, 1989, p. 599.
D.A. Woodford and R.H. Bricknell
74. “Japanese Engineering Materials Development Programs”, ASM News, Vol. 20, No. 2, 1989, p. 4.
D.A. Woodford
75. “Gas Phase Embrittlement of Superalloys – Implications for Life Assessment”, Life Assessment and Repair, EPRI/ASM International Conference Proceedings 1990, p. 97.
D.A. Woodford
76. “Preparing Materials Engineering Students for Design”, Journal of Materials, 1990, Aug. p. 36.
D.A. Woodford
77. “Critical Property Evaluation of High-Temperature Composites: A Case Study in Materials Design”, Journal of Materials, 1990, Nov. p. 50.
D.A. Woodford
78. “Design for Performance – A Predictive Framework for Life – Cycle Management, Journal of Materials, 1990, Dec.
D.A. Woodford
79. “Gas Phase Embrittlement of Nickel by Sulfur”, Met. Trans., Vol. 21A, 1990, p.3049.
J.P. Beckman and D.A. Woodford
80. “The Effect of Oxygen Partial Pressure During High Temperature Exposure on Sensitivity to Embrittlement of Diffusion Bonded Inconel 625”, Superalloys 718, 625 and Various Derivatives, TMS, edt. E. Loria, 1991, p. 653.
C.M. Rimlinger and D.A. Woodford
81 “Creep Damage Measurements in 21/4Cr-1Mo Steel,” Mat. Science and Techn. vol. 8, no. 5, 1992, p. 443.
D.A. Woodford, D. Van Steele, M.J. Hyder and M. Kitagawa
82. “Tensile Stress Relaxation of Alumina at High Temperature”, Journ. Amer. Ceram. Soc., vol. 74 (12), 1991, p. 342.
D.A. Woodford, D.R. Van Steele and M.J. Hyder
83. “Creep Strength and Creep Damage Considerations for Life Cycle Engineering”, Fifth Int. Conf. on Creep, ASM International, (1992), p. 23.
D.A. Woodford
84. “Effect of Test Temperature, Oxygen Attack, Thermal Transients, and Protective Coatings on Tensile Strength of Silicon Carbide Composites, Annual Conf. on Composites and Advanced Ceramics, Cocoa Beach, FL, 1992.
D.A. Woodford, D.R. Van Steele, J.A. Brehm and J.E. Palko
85. ” Effect of Test Temperature, Environment, and Coatings on theTensile Behavior of a SiC/SiC Ceramic Matrix Composite”, in Developments in Ceramic and Metal-Matrix Composites, Edt. K. Upadhya, TMS, 1992, p. 25.
J. A. Brehm, D. A. Woodford, D. R. Van Steele and J. E. Palko
86. “Tensile Properties of Ceramic Matrix Composites”, JOM, 1993, p. 57.
D.A. Woodford, D.R. Van Steele, L.Timms, J.A. Brehm and J.E. Palko
87. “Creep Strength Evaluation for IN738 Based on Stress Relaxation”, Superalloys, 1992.
D. A. Woodford, D. R. Van Steele, K. Amberge and D. Stiles
88. “Design for Performance–A New Conceptual Approach to High Temperature Deformation and Fracture”,Creep and Fracture of Engineering Materials and Structures,Edt. B. Wilshire and R. W. Evans, Inst. of Materials,1993, p.603-612.
D. A. Woodford, D. R. Van Steele and D. Stiles
89. “Life Assessment of Gas Turbine Blades Based on Minimum Performance Criteria,” Plant Life Management and Extension, Baltica II, October, 1992.
D.A. Woodford, D.R. Van Steele, K. Amberge and D. Stiles
90. “A Methodology for Life Management of Gas Turbine Blades”, EPRI Conference on Turbine Generators, Albany,NY, 1993.
D. A. Woodford, D. R. Van Steele and D. Stiles
91. “Student Partnerships with Industry”, ASM Publication, Design Education in Materials and Metallurgical Engineering, 1993, p.132.
D. A. Woodford
92. “Test Methods for Development, Design, and Life Assessment of High Temperature Materials”, Materials and Design, vol. 14, 1993, p.231.
D. A. Woodford
93. “Design Data for Polycarbonate from Stress Relaxation Tests”, Materials and Design, vol. 14, 1993, p.279.
G. G. Grzywinski and D. A. Woodford
94. “Decision Support for Continued Service of Gas Turbine Blades”, Materials Performance, Maintenance and Plant Life Assessment, Edt. I. LeMay, P. Mayer, P. R. Roberge and V. S. Sastri, Metallurgical Society of the Canadian Institute of Mining, Metallurgy and Petroleum, Toronto, 1994, p. 85.
D. A. Woodford, D. R. VanSteele, K. J. Amberge and D. Stiles
95. “Creep Design Analysis for a Thermoplastic from Stress Relaxation Measurements”, Materials and Design, 1995, vol. 16, p. 15.
S. K. Reif, K. J. Amberge and D. A. Woodford
96. “The Design for Performance Concept Applied to Life Management of Gas Turbine Blades” International Conference on Plant Condition and Life Management, Baltica III, 1995, p. 319.
D. A. Woodford
97. “Creep Analysis of Thermoplastics using Stress Relaxation Data,” Journ. Polymer Engineering and Science, 1995, vol. 35, no. 24, p.1931-1937.
G. G. Grzywinski and D. A. Woodford
98. “The Design for Performance Concept Applied to Life Management of Gas Turbine Blades,” Materials Ageing and Component Life Extension, edt. V. Bicego, A, Nitta and R. Viswanathan, EMAS ltd, 1995, p.1479.
D. A. Woodford
99. “Creep Design Analysis for Superalloys based on Stress Relaxation Testing,” Sixth International Conference on Creep and Fatigue, I. Mech. E. London, England, 1996, p.61-69.
D. A. Woodford
100. “Creep Strength and Fracture Resistance of Directionally Solidified GTD111,” Conference on Superalloys, Seven Springs, 1996, p.353-357.
D. A. Woodford
101. “Creep Analysis of Directionally Solidified GTD111 based on Stress Relaxation Testing,” Materials at High Temperatures, vol. 14, no.4, p.413-420.
D. A, Woodford
102. “High temperature Performance Evaluation of a Directionally Solidified Nickel Based Superalloy,” Journ. Materials Engineering and Performance, vol. 6(4), 1997, p.521-533.
D, A. Woodford and D. Stiles
103. “Stress Relaxation, Creep Recovery, and Newtonian Viscous Flow in Silicon Nitride,” J. Am. ceram. Soc., vol. 81(9), 1998, p. 2327-32.
D. A. Woodford
104. “Creep Design Analysis of Silicon Nitride using Stress Relaxation Data,” Materials & Design, vol.17, no.3, 1996, p. 127-132.
D. A. Woodford
105. “Creep Analysis of Thermoplastics from Stress Relaxation Measurements,” Design for the 21st Century, Soc. Plastics Engineers, Boston, Oct 16-18, 1996.
D. A. Woodford
106. “Stress Relaxation Testing for Creep Design Analysis of Metals, Ceramics and Polymers,” Creep and Fracture of Engineering Materials and Structures, edt. J. C. Earthman and F. A. Mohamed, TMS, 1997, p.779-780.
D. A. Woodford
107 “Creep Strength Evaluation, Design, and Life Management of Cr-Mo-V Rotor Steel using Stress Relaxation Testing,” Advances in Turbine Materials, Design and Manufacturing, Edt. A. Strang, W. M. Banks, R. D. Conroy and M. J. Goulette, Inst. of Materials, 1997, p. 613-624.
D. A. Woodford and K. Iijima
108. “Design for High Temperature Applications,” Materials Selection and Design, ASM Handbook, Volume 20,1997, p.573-588.
D. A. Woodford
109. “Design for Elevated-Temperature Applications,” Heat Resistant Materials, ASM Specialty Handbook, 1997, p.518-533.
D. A. Woodford
110. “Parametric Analysis of Monocrystalline CMSX-4 Creep and Rupture Data,” Met. and Mat. Trans. A, vol. 29A, 1998, p. 2645-47.
111. “Application of Stress relaxation Testing in Metallurgical Life Assessment Evaluations of GTD111 Alloy Turbine Buckets,” ASME 98-GT-370.
J. A. Daleo, K. A. Ellison and D. A. Woodford
112. “Accelerated High Temperature Evaluation of Superalloys for Process Optimization and Remaining Life Assessment,” ASME Turbo Expo ’99.
D. A. Woodford
113. “Stress Relaxation Testing of Service Exposed IN738 for Creep Strength Evaluation,” ASME Turbo Expo ’99.
D. A. Woodford
114. “Stress Relaxation Testing as a Basis for Creep Analysis and Design of Silicon Nitride,” ASME Turbo ’99.
D. A. Woodford, A. A. Wereszczak and W. A. Bakker
115. “Stress Relaxation as a Basis for Blade Creep Life Assessment,” Inst. of Materials, Proc. Edinburgh Conf. 2000.
D. A. Woodford and J. A. Daleo
116. “Stress Relaxation Testing,” Metals Handbook, vol. 8, 2000.
D. A. Woodford
117. “Advances in the Use of Stress Relaxation data for Design and Life Assessment in Combustion Turbines,” Seventh Intern. Conf. on Creep and Fatigue at Elevated Temperatures,” NIMS, Tsukuba, Japan, 2001.
D. A. Woodford
118. “Stress Relaxation Testing of Miniature Specimens for Life Management of Turbine Blades,” Int. Conf. on Advances in Life Assessment and Optimization of Fossil Power Plants, EPRI, Orlando, Florida, 2002.
D. A. Woodford
119. “Creep Strength Evaluation of Serviced and Rejuvenated T91 using the Stress Relaxation Method,” Fourth Int. Conf. on Advances in Materials Technology for Fossil Power Plants, EPRI, Hilton Head, South Carolina, 2004.
D. A. Woodford and R. W. Swindeman
120. “Accelerated High Temperature Performance Evaluation for Alloy Optimization, Embrittlement, and Life Assessment,” Corrosion 2005, NACE, paper #05417.
D. A. Woodford
121. “Gas Phase Embrittlement and Time Dependent Cracking of Nickel Based Superalloys.” Energy Materials, vol.1, 2006, p.59-79.
D. A. Woodford
122. “Development of a Framework for Presentation and Design Analysis of Creep Rupture Data using the CES Materials Selection Software,” TMS paper, Pittsburgh, 2005.
D. A. Woodford and A. Miller
123. “Evolution of a Modern Mechanical Testing and Design Standard for High Temperature Materials.”Materials Research Innovations, vol.20, 2016, Issue 5, p.379-389.
D. A. Woodford
124. “Intrinsic Ductility for Structural Materials as a Function of Stress and Temperature,” Mat. High Temp., vol 34, 2017, p.134-139.
D. A. Woodford
125. “Comparison of Creep Strength and Intrinsic Ductility for Serviced and Reheat Treated T91 Steel based on Stress Relaxation Testing,” Mat. High Temp., vol. 34, 2017, p.140-148.
D. A. Woodford
126. “Performance-Based Creep Strength and Intrinsic Ductility for a Cast Nickel-Based Superalloy, Mat. High Temp., published on line, Aug., 2017.
D. A. Woodford
ADDITIONAL PUBLICATIONS
1. “Energy Conversion Alternatives Study (ECAS)”, prepared for NASA, ERDA and NSF, 1976, with J.C. Corman, R.B. Fleming, L.P. Harris, R.V. Pohl, D.H. Brown, R.P. Shah, H.D. Solomon, J.D. Eskersen and W.A. Booth.
2. “Investigation of Low-Cycle, Thermal-Mechanical Fatigue Behavior of High Temperature Superalloys”, Naval Air Systems Command, Contract No. N00019-77-/c-0111, 1978, with P.K. Wright.
3. “Fluidized Bed Erosion”, New York State E.R.D.A., 1980, with R.T. Wood.
4. “Japanese Engineering Materials Development Programs”, Report to International Programs of the National Science Foundation, 1988.
5. “Creep Strength and Fracture Resistance Evaluation for High Temperature Materials”, EPRI Report WO 8512-10, 1999.
6. “Accelerated Testing for High Temperature Materials Performance and Remaining Life Assessment,” EPRI Report WO9005-19, 2000.
7. “Materials and Process Selection for the Ultra-Supercritical Steam Turbine,” ORNL Report, 2004.