Corrosion Science and Process Engineering

Technical Papers Published

For information on the papers listed, write Communications.

2008

Chiang, K.-T.K. and T.S. Mintz. 2008. Gravimetric Techniques. Chapter 9 in Techniques for Corrosion Monitoring. L. Yang (ed.) Woodhead Publishing Limited, Cambridge, England. pp. 247–264.

He, X., and T. Mintz. 2008. Localized Corrosion of Alloy 22 in the Yucca Mountain Repository Environment. Journal of Metals, 60: 44–51.

Kazban, R.V., K.M. Vernaza Peña, and J.J. Mason. 2008. Measurements of Forces and Temperature Fields in High-Speed Machining of 6061-T6 Aluminum Alloy. Experimental Mechanics, 48(3):307–317.

2007

Chiang, K.T., D.S. Dunn, and G.A. Cragnolino. 2007. Effect of Simulated Groundwater Chemistry on Stress Corrosion Cracking of Alloy 22. Corrosion, 63(10): 940–950.

Chiang, K.T., D.S. Dunn, Y.-M. Pan, O. Pensado, and P.K. Shukla. “Stress Corrosion Cracking of Waste Package Material–Modeling and Experiments.” CNWRA 2007-01, San Antonio, Texas. (2007).

He, X., and D.S. Dunn. 2007. Crevice Corrosion Penetration Rates of Alloy 22 in Chloride-Containing Waters. Corrosion, 63: 145–158.

He, X., D.S. Dunn, and C.S. Csontos. 2007. “Corrosion of Similar and Dissimilar Metal Crevices in the Engineered Barrier System of a Potential Nuclear Waste Repository,” Electrochimica Acta. 52: 7556-7569.  http://dx.doi.org/10.1016/j.electacta.2006.12.077.

He, X., D.S. Dunn, and C.S. Csontos. “Crevice corrosion initiation and propagation of similar and dissimilar metal couples in the engineered barrier system of the potential Yucca Mountain Repository.” 2007.

He, X., J.J.Noël, and D.W. Shoesmith. 2007. Temperature Effects on Oxide Film Properties of Grade-7 Titanium. Corrosion, 63: 781–792.

Kazban, R.V. and J.J. Mason. 2007. Fluid Mechanics Approach to Machining at High Speeds: Part I: Justification of Potential Flow Models. Machining Science and Technology—An International Journal, 11(4): 475–489.

Kazban, R.V. and J.J. Mason. 2007. Fluid Mechanics Approach to Machining at High Speeds: Part II: A Potential Flow Model. Machining Science and Technology—An International Journal, 11(4): 491–514.

Shukla, P.K. 2008. Thermodynamics of Corrosion Potentiometric Methods for Measuring Localized Corrosion. In Techniques for Corrosion Modeling. L. Yang (ed.), Cambridge, England, Woodhead Publishing Limited.

2006

Dunn, D.S., Y.M. Pan, L. Yang, and G.A. Cragnolino. Localized corrosion susceptibility of Alloy 22 in chloride solutions: Part 2 - Effect of fabrication processes. Corrosion. 62(1):3-12. 2006.

He, X., V. Jain, D. Pickett, and P. Bertetti. “Evolution of Fluid Chemistry inside a Waste Package Due to Carbon Steel and Simulated High-Level Waste Glass Corrosion.” San Antonio, Texas: CNWRA®. 2006.

McMurry, J. and X. He. “Supplementary Leaching Tests of Insulation and Concrete for GSI-191 Chemical Effects Program.” San Antonio, Texas: CNWRA®. 2006.

Pan, Y.-M., D.S. Dunn, X .He, O. Pensado, and K. Chiang. “Independent Evaluation of Waste Package Corrosion Performance under Potential Repository Conditions.” Nuclear Technology, 2006.

O. Pensado, R. Pabalan, D. Dunn, and K.T. Chiang. “Use of Alloy-22 as a Long-Term Radioactive Waste Containment Material.” Passivation of Metals and Semiconductors, and Properties of Thin Oxide Layers—A Selection of Papers from the 9th International Symposium, Paris, France: 27 June–1 July, 2005. Ph. Marcus and V. Maurice (Eds.) The Netherlands: Elsevier, pp. 53-57. 2006.

2005

Csontos, A., T. Ahn, A. Passarelli, Y. Pan, D. Dunn, and L. Yang. The Evaluation of Corrosion processes for Engineered Barrier Systems. JOM Vol. 57(1) pp. 36-42 (2005).

Csontos, A.A., Y.M. Pan, D.S. Dunn, L.T. Yang, and G.A. Cragnolino. The effect of potential and aging on the Pb-assisted stress corrosion cracking susceptibility of alloy 22 gas tungsten arc-welded weldments. Metallurgical and Materials Transactions A—Physical Metallurgy and Materials Science. 36A(5):1169-1177. 2005.

Devine, T., Y. Bhargava, S. Thorne, T. Mintz, T. Cohen-Hyams, Y. Suzuki, V. Radmilovic, and T.M. Devine, “Structure and Properties of Electrochemically Synthesized Nickel Oxide Nanowires.” The Electrochemical Society’s Interface. Fall 2005.

Dunn, D.S., O. Pensado, Y.-M. Pan, L.T. Yang, and X. He, “Modeling Corrosion Processes for Alloy 22 Waste Packages.” Scientific Basis for Nuclear Waste Management XXIX, Ghent, Belgium, September 12–16, 2005. Symposium Proceedings 932. P. Van Iseghem, ed. Pittsburgh, Pennsylvania: Materials Research Society. 2005.

Dunn, D.S., O. Pensado, Y. -M. Pan., R.T. Pabalan, L. Yang, X. He, and K.T. Chiang. 2005. Passive and Localized Corrosion of Alloy 22 - Modeling and Experiments. CNWRA 2005-02. San Antonio, Texas: Center for Nuclear Waste Regulatory Analyses.

Dunn, D.S.,  Y.-M. Pan and K.T. Chiang. Microstructural Analyses and Mechanical Properties of Alloy 22 - Modeling and Experiments. CNWRA 2005-03, San Antonio, TX: Center for Nuclear Waste Regulatory Analyses, 2005.

Dunn, D.S., Y.M. Pan, L. Yang, and G.A. Cragnolino. Localized corrosion susceptibility of Alloy 22 in chloride solutions: Part 1 - Mill-annealed condition. Corrosion. 61(11):1078-1085. 2005.

Dunn, D.S., Y.-M. Pan, K. Chiang, L. Yang, G.A. Cragnolino, and X. He, The Localized Corrosion Resistance and Mechanical Properties of Alloy 22 Waste Package Outer Containers, Journal of Metals, 57 (2005) 49-55.

He, X. and D.S. Dunn. “Alloy-22 Localized Corrosion Propagation in Chloride-Containing Waters.” CNWRA 2006-001. San Antonio, Texas: CNWRA®. 2005.

He, X., J.J.Noël, and D.W. Shoesmith, Effects of Iron Content on Crevice Corrosion of Grade-2 Titanium, Corrosion, 60 (2004) 378-385.

He, X., J.J.Noël, and D.W. Shoesmith, Damage Function of Grade-2 Titanium at 95oC, Corrosion Science 47 (2005) 1177-1195.

Jain, V., X. He, and Y. -M. Pan. 2005. Corrosion Rate Measurements and Chemical Speciation of Corrosion Products Using Thermodynamic Modeling of Debris Components to Support GSI-191. NUREG/CR-6873. Rockville, MD: Nuclear Regulatory Commission.

Mintz, T.S., Y.V. Bhargava, S.A. Thorne, R. Chopdekar, V. Radmilovic, Y. Shuzuki, and T.M. Devine, “Electrochemical Synthesis of Functionalized Nickel Oxide Nanowires.” Electrochem. Solid-State Lett., Volume 8, Issue 9, pp. D26-D30 (2005).

Pan, Y.M., D.S. Dunn, and G.A. Cragnolino. Topologically close-packed phase precipitation and thermal stability in Alloy 22. Metallurgical and Materials Transactions A—Physical Metallurgy and Materials Science. 36A(5):1143-1151. 2005.

Sridhar, N., D.S. Dunn, C.S. Brossia, G.A. Cragnolino, and J.R. Kearns. Crevice Corrosion. Corrosion Tests and Standards: Application and Interpretation, 2nd edition, R. Baboian (Ed). West Conshohocken, Pennsylvania. ASTM International, pp. 221–232. 2005.

Yang, L.,  N. Sridhar, C.S. Brossia, and D.S. Dunn, Evaluation of the coupled multielectrode array sensor as a real-time corrosion monitor, Corrosion Science Vol. 47 pp. 1794-1809. (2005).

2004

Andreko, A., N. Sridhar, and D.S. Dunn. "A general model for the repassivation potential as a function of multiple aqueous solution species." Corrosion Science Vol. 46, pp. 1583-1612, (2004).

Brossia, C.S., and G.A. Cragnolino. 2004. Effect of palladium on the corrosion behavior of titanium. Corrosion Science. 46(7):1693-1711. 2004.

Cragnolino, G.A., D.S. Dunn and Y.–M. Pan. Evaluation of Corrosion Processes Affecting the Performance of Alloy 22 as a Proposed Waste Package Material. Scientific Basis for Nuclear Waste Management XXVII. V.M. Oversby and L.O. Werme (Eds.) Materials Research Society. Warrendale, Pennsylvania. Symposium Proceedings, 807:435–440. 2004.

Cragnolino, G.A., D.S. Dunn, C.S. Brossia, Y-M. Pan, O. Pensado, and L. Yang. "Corrosion Behavior of Waste Package and Drip Shield Materials." Nuclear Technology Vol. 148, pp. 166-173, (2004).

Csontos, A.A., Y-M. Pan, D.S. Dunn, and G.A. Cragnolino. "The effect of fabrication processes on the governing mechanical failure criteria for Alloy 22, Ti-Grade2/7, and Ti-Grade 5/24 alloys." Scientific Basis for Nuclear Waste Management XXVIII, J.M. Hanchar, S. Stroes-Gascoyne, and L. Browning eds, Warrendale, PA: Materials Research Society Symposium Proceedings, Vol. 824, pp. 27-32, (2004).

Csontos, A.A., Y-M. Pan, D.S. Dunn, L. Yang, and G.A. Cragnolino. "The effect of environmental chemistry on the Pb assisted stress corrosion cracking susceptibility of Mill-Annealed Alloy 22 and GTAW weldments." Scientific Basis for Nuclear Waste Management XXVIII, J.M. Hanchar, S. Stroes-Gascoyne, and L. Browning eds, Warrendale, PA: Materials Research Society Symposium Proceedings, Vol. 824, pp. 39-44, (2004).

Dunn, D.S., O. Pensado, Y.-M. Pan, R.T. Pabalan, L. Yang, X. He, and K.T. Chiang, "Passive and Localized Corrosion of Alloy 22-Modeling and Experiments CNWRA 2005-02, San Antonio, TX: Center for Nuclear Waste Regulatory Analyses, 2004.

Dunn, D.S., L. Yang, C. Wu, and G.A. Cragnolino. "Effect of Inhibiting Oxyanions on the Localized Corrosion Susceptibility of Waste Package Container Materials." Scientific Basis for Nuclear Waste Management XXVIII, J.M. Hanchar, S. Stroes-Gascoyne, and L. Browning eds, Warrendale, PA: Materials Research Society Symposium Proceedings, Vol. 824, pp. 33-38, (2004).

Jain, V., G. Cragnolino, and D. Dunn. 2004. Comments on Selected Sections of Nagra Safety Case Document NTB 02-05 and Supporting Documents - Final Report. HSK 35/94. Wurlingen, Switzerland: HSK.

Jain, V., G. Cragnolino, L. Howard. 2004. A Review Report on High Burnup Spent Nuclear Fuel - Disposal Issues. CNWRA 2004-08. San Antonio, Texas: Center for Nuclear Waste Regulatory Analyses.

Jain, V., L. Yang, and K.T. Chiang. “Chemical Speciation, Using Thermodynamic Modeling, During a Representative Loss-of-Coolant Accident Event.” CNWRA 2004-07, San Antonio, Texas: CNWRA®. 2004.

Mintz, T.S. and T.M. Devine. “Influence of surface films on the susceptibility of Inconel 600 to stress corrosion cracking.” p. 261-263 (Pt. 2, Advances in Fracture and Failure Prevention p. 875-884). Key Engineering Materials. 2004.

Pan, Y.–M. and G.A. Cragnolino. Electrochemical Evaluation and Surface Characterization of Josephinite as a Natural Analog for Container Materials. Scientific Basis for Nuclear Waste Management XXVIII, J.M. Hanchar, S. Stroes-Gascoyne, and L. Browning (Eds.) Materials Research Society. Warrendale, Pennsylvania. Symposium Proceedings, 824:63–68. 2004.

Yang, L., N. Sridhar, S.L. Grise, B.J. Saldanha, M.H. Dorsey, H.J. Shore, and A. Smith. 2004. Real-time corrosion monitoring in a process stream of a chemical plant using coupled multielectrode array sensors. CORROSION/2004, Paper No. 04440. Houston, Texas: NACE International.

2003

Dunn, D.S., D. Daruwalla, and Y.M. Pan. 2003. Effect of fabrication processes on materials stability—characterization and corrosion. CNWRA 2004-01. San Antonio, Texas: Center for Nuclear Waste Regulatory Analyses.

Dunn, D.S., O. Pensado, C.S. Brossia, G.A. Cragnolino, N. Sridhar, and T.M. Ahn. 2003. Modelling corrosion of Alloy 22 as a high-level radioactive waste container material. Prediction of Long-Term Corrosion Behavior in Nuclear Waste Systems. Proceedings of International Workshop, Cadarache, France, 2002. D. Feron and D.D. Macdonald, eds. London, United Kingdom: Maney Publishing.  208–224.

Jain, V., D. Daruwalla, and C. Fairbanks. 2003. Assessment of mechanisms for early waste package failures. CNWRA 2003-05. San Antonio, Texas: Center for Nuclear Waste Regulatory Analyses.

Pan, Y.-M., D.S. Dunn, L.Yang, and G.A. Cragnolino. 2003. Corrosion and stress corrosion cracking of Alloy 22 in lead-containing solutions. Scientific Basis for Nuclear Waste Management XXVI. R.J. Finch and D.B. Bullen, eds. Materials Research Society Symposium Proceedings 757. Warrendale, Pennsylvania: Materials Research Society. 743–750.

Pan, Y.M., V. Jain, and O. Pensado. 2003. Degradation of high-level waste glass under simulated repository conditions. Journal of Non-Crystalline Solids. 319: 74–78.

Pan, Y.-M., D.S. Dunn, and G.A. Cragnolino. 2003. Phase instability and corrosion of Alloy 22 as a high-level waste container material. The Mike Meshii Symposium on Electron Microscopy: Its Role in Materials Research. J.R. Weertmen, et al., eds. Warrendale, Pennsylvania: The Minerals, Metals, and Materials Society. 201–208.

Pensado, O., D.S. Dunn, G.A. Cragnolino, and V. Jain. 2003. Long-term extrapolation of passive behavior of Alloy 22. Scientific Basis for Nuclear Waste Management XXVI. R.J. Finch and D.B. Bullen, eds. Materials Research Society. Symposium Proceedings. 757. Warrendale, Pennsylvania: Materials Research Society. 723–728.

Yang, Lietai, and Narasi Sridhar. 2003. Coupled multielectrode online corrosion sensor. Materials Performance. 42(9): 48–52.

Yang, L., R.T. Pabalan, L. Browning, and D.S. Dunn. 2003. Corrosion behavior of carbon steel and stainless steel materials under salt deposits in simulated dry repository environments. Scientific Basis for Nuclear Waste Management XXVI, R. J. Finch and D. B. Bullen, eds. Materaisl Research Society Symposium Proceedings 757. Warrendale, Pennsylvania: Materials Research Society. 791–797.

Yang, Lietai, and Narasi Sridhar. 2003. Monitoring of localized corrosion in ASM Handbook 13A-Corrosion: fundamentals, testing, and protection. S. D. Crammer and B. S. Covino, Jr., eds. ASM International. Materials Park, Ohio: 519–524.

2002

Cragnolino, G.A., D.S. Dunn, and Y.–M. Pan. Localized Corrosion Susceptibility of Alloy 22 as a Waste Package Container Material. Scientific Basis for Nuclear Waste Management XXV. B.P. McGrail and G.A. Cragnolino (Eds). Materials Research Society. Warrendale, Pennsylvania. Symposium Proceedings, 713:53–60. 2002.

Cragnolino, G.A., O. Pensado, D.S. Dunn, C.S. Brossia, and N. Sridhar. Lifetime Prediction of High-Level Radioactive Waste Containers Affected by Corrosion. 15th. International Corrosion Congress. National Centre for Metallurgical Research. Spanish Council for Scientific Research (CD ROM). Madrid, Spain, 2002.

McGrail, B.P., and G.A. Cragnolino, eds. 2002. Scientific basis for nuclear waste management XXV. Materials Research Society Symposium Proceedings 713  (edited volume). Warrendale, Pennsylvania: Materials Research Society.

Pan, Y.M., C.S. Brossia, G.A. Cragnolino, D.S. Dunn, G.D. Gute, and L. Yang. 2002. Stress corrosion cracking and hydrogen embrittlement of container and drip shield materials. CNWRA 2003-02. San Antonio, Texas: Center for Nuclear Waste Regulatory Analyses.

Pan, Y.–M., C.S. Brossia, G.A. Cragnolino, D.S. Dunn, V. Jain, and N. Sridhar. Evolution of Solution Chemistry through Interactions with Waste Package Internal Structural Components. Scientific Basis for Nuclear Waste Management XXV. B.P. McGrail and G.A. Cragnolino (Eds.) Materials Research Society. Warrendale, Pennsylvania. Symposium Proceedings, 713:121–127. 2002.

Pensado, O., D.S. Dunn, G.A. Cragnolino, and V. Jain. 2002. Passive dissolution of container materials—modeling and experiments. CNWRA 2003-01. San Antonio, Texas: Center for Nuclear Waste Regulatory Analyses.

Yang, L., N. Sridhar, O. Pensado, and D.S. Dunn. 2002. An in-situ galvanically coupled multielectrode array sensor for localized corrosion. Corrosion 58: 1,004–1,014.

Yang, L., and D. Dunn. 2002. Evaluation of corrosion inhibitors in cooling water systems using a coupled multielectrode array sensor. CORROSION/2002, Paper No. 02004. Houston, Texas: NACE International.

2001

Brossia, C.S., and G.A. Cragnolino. 2001. Effects of environmental and metallurgical conditions on the passive and localized dissolution of Ti-0.15%Pd. Corrosion 57: 768–776.

Cragnolino, G.A., D.S. Dunn, Y.–M. Pan, and O. Pensado. Corrosion Processes Affecting the Performance of Alloy 22 as a High-Level Radioactive Waste Container Material. Scientific Basis for Nuclear Waste Management XXIV. K.P. Hart and G.R. Lumpkin, Eds. Materials Research Society. Warrendale, Pennsylvania. Symposium Proceedings, 663. 2001.

Cragnolino, G.A., D.S. Dunn, Y.-M. Pan, and N. Sridhar. 2001. The critical potential for the stress corrosion cracking of Fe-Cr-Ni alloys and its mechanistic implications. Chemistry and Electrochemistry of Corrosion and Stress Corrosion Cracking: A Symposium Honoring the Contributions of R.W. Staehle. R.H. Jones, ed. Warrendale, Pennsylvania: The Minerals, Metals, and Materials Society.  83–104.

Jain, V. 2001. Survey of solidification process technologies. NUREG/CR–6666. Washington, DC: U.S. Nuclear Regulatory Commission.

Pabalan, R.T., V. Jain, R.F. Vance, S. Ioannidis, D.A. Pickett, C.S. Brazel, J.T. Persyn, E.J. Taylor, and M.E. Inman. 2001. Hanford Tank Waste Remediation System pretreatment chemistry and technology. NUREG/CR–6714. Washington, DC: U.S. Nuclear Regulatory Commission.

Sridhar, N., D.S. Dunn, C.S. Brossia and G.A. Cragnolino. Stabilization and Repassivation of Localized Corrosion. Proceedings of the CORROSION 2001 Research Topical Symposium on Localized Corrosion G.S. Frankel and J.R. Scully. Eds. NACE International, Houston, Texas, pp.1–29, 2001.

2000

Brossia, C S., and G.A. Cragnolino. 2000. Effect of environmental variables on localized corrosion of carbon steel. Corrosion 56: 505–514.

Cragnolino, G.A., S. Mohanty, D.S. Dunn, N. Sridhar, and T.M. Ahn. 2000. An approach to the assessment of high-level radioactive waste containment. I: Waste package degradation. Nuclear Engineering and Design 201: 289–306.

Dunn, D.S., M.B. Bogart, C.S. Brossia, and G.A. Cragnolino. 2000. Corrosion of iron under alternating wet and dry conditions. Corrosion 56: 470–481.

Dunn, D.S., G.A. Cragnolino, and N. Sridhar. 2000. Effect of galvanic coupling between overpack materials of high-level nuclear waste containers. Corrosion 56: 598–610.

Dunn, D.S., G.A. Cragnolino, and N. Sridhar. 2000. An electrochemical approach to predicting long-term localized corrosion of corrosion-resistant high-level waste container materials. Corrosion 56: 90–104.

Dunn, D.S., G.A. Cragnolino, and N. Sridhar. Passive Dissolution and Localized Corrosion of Alloy 22 High-Level Waste Container Weldments. Scientific Basis for Nuclear Waste Management XXIII. R.W. Smith and D.W. Shoesmith (Eds). Materials Research Society. Warrendale, Pennsylvania. Symposium Proceedings. 608:89–94. 2000.

Mohanty, S., R. Codell, T.M. Ahn, and G.A. Cragnolino. 2000. An approach to the assessment of high-level radioactive waste containment. II: Radionuclide release from an engineered barrier system. Nuclear Engineering and Design 201: 307–325.

Pan, Y.M., D.S.Dunn, G.A. Cragnolino, and N. Sridhar. 2000. Grain boundary chemistry and intergranular corrosion in Alloy 825. Metallurgical and Materials Transactions 31A: 1,163–1,173.

Pan, Y.-M., D.S. Dunn, and G.A. Cragnolino. 2000. Effects of environmental factors and potential on stress corrosion cracking of Fe-Ni-Cr-Mo alloys in chloride solutions. Environmentally Assisted Cracking: Predictive Methods for Risk Assessment and Evaluation of Materials, Equipment, and Structures. R.S. Kane, ed. ASTM STP 1401. West Conshohocken, Pennsylvania: American Society for Testing and Materials. 273–288.

1999

Ahn, T.M., G.A. Cragnolino, K.S. Chan, and N. Sridhar. Scientific Basis for Cladding Credit as a Barrier to Radionuclide Release at the Proposed Yucca Mountain Repository. Scientific Basis for Nuclear Waste Management XXII. D.J. Wronkiewics and J.H. Lee (Eds). Materials Research Society. Warrendale, Pennsylvania. Symposium Proceedings. 556:525–533. 1999.

Chiang, K.T. 1999. Hot gas erosion resistance of a vapor-deposited Cu-Cr coating. Surface and Coatings Technology 114: 1–6.

Dunn, D.S., G.A. Cragnolino, and N. Sridhar. Methodologies for Predicting the Performance of Ni-Cr-Mo Alloys Proposed for High Level Waste Containers. Scientific Basis for Nuclear Waste Management XXII. D.J. Wronkiewics and J.H. Lee (Eds). Materials Research Society. Warrendale, Pennsylvania. Symposium Proceedings. 556:879–886. 1999.

Pabalan, R.T., M.S. Jarzemba, D.A. Pickett, N. Sridhar, J. Weldy, C.S. Brazel, J.T. Persyn, D.S. Moulton, J.P. Shu, J. Erwin, T.A. Abrajano Jr., and B. Li. 1999. Hanford Tank Waste Remediation System high-level waste chemistry manual. NUREG/CR–5751. Washington, DC: U.S. Nuclear Regulatory Commission.

Walter, R.J., and K.T. Chiang. 1999. Creep of uncoated and Cu-Cr coated NARloy-Z. Materials Science and Engineering A263, Issue 1: 8–14.

1998

Chiang, K.T., and D. L. Grimmett. 1998. Oxidation behavior of a Cu-8Cr-4Nb alloy. Proceedings of the Electrochemical Society, Inc. P.Y. Hou, M.J. McNallen, R. Oltra, and D.A. Shore, eds. 98-9: 489–499.

Wallace, T.A., R.K. Clark, and K.T. Chiang. 1998. Dynamic oxidation performance of NARloy-Z with Cu-30 volume percent Cr coating. Journal of Spacecraft and Rocket 35(4): 546–551.

1997

Chiang, K.T., G.H. Meier and F.S. Pettit. 1997. Oxidation behavior of copper-chromium composites. Microscopy of Oxidation-3. S.B. Newcomb and J.A. Little, eds. London, United Kingdom: Institute of Materials. 443–451.

Mohanty, S., G.A. Cragnolino, D.S. Dunn, and N. Sridhar. Probability Assessment of Waste Package Life for High-Level Radioactive Waste Disposal. American Nuclear Society (ANS) Annual Meeting. Orlando, Florida. June 1–5, 1997. Published in Transactions of the American Nuclear Society. 76:48-49.

Sridhar, N., and D.S. Dunn. 1997. In-situ study of salt film stability in simulated pits of nickel by Raman and electrochemical impedance Spectroscopies. Electrochemical Society 144(12): 4,243–4,253. December 1997.

1996

Angell, P., D.S. Dunn, and G.A. Cragnolino. Effect of Microbial Action on the Corrosion Potential of Austenitic Alloy Containers for High-Level Nuclear Waste. Scientific Basis of Nuclear Waste Management XIX. W.M. Murphy and D.T. Knecht (Eds.). Materials Research Society. Pittsburgh, Pennsylvania. Symposium Proceedings. 412:539–546. 1996.

Chiang, K.T., and J.P. Ampaya. 1996. Oxidation kinetics of Cu-30 Vol.%Cr coating. Surface and Coatings Technology 76: 243–247.

Cragnolino, G.A., D.S. Dunn, and N. Sridhar. 1996. Environmental factors in the stress corrosion cracking of Type 316L stainless steel and Alloy 825 in chloride solutions. Corrosion 52(3): 194–203.

Dunn, D.S., Y.–M Pan, G.A. Cragnolino, and N. Sridhar. Long-Term Thermal stability of Alloy 825 as a High-Level Nuclear Waste Container Material. Scientific Basis of Nuclear Waste Management XIX. W.M. Murphy and D.T. Knecht (Eds.). Materials Research Society. Pittsburgh, Pennsylvania. Symposium Proceedings. 412:581–588. 1996.

Dunn, D.S., N. Sridhar, and G.A. Cragnolino. Long-term prediction of localized corrosion of alloy 825 in high-level nuclear waste repository environments. Corrosion. 52(2):115-124. 1996.

Pan, Y.M., N. Sridhar, D.S. Dunn, and G.A. Cragnolino. Effect of specimen preparation procedures on chromium depletion and precipitation chemistry in alloy 825 by analytical electron microscopy. J. Materials Science Letters. 15(6):522-524. 1996.

Walton, J.C., G. Cragnolino, and S.K. Kalandros. A numerical model of crevice corrosion for passive and active metals. Corrosion Science. 38(1):1-18. 1996.

1995

Chiang, K.T., D.H. Loh, P.K. Liaw, and E.S. Diaz. 1995. Materials characterization of silicon carbide reinforced titanium (Ti-SCS-6) metal matrix composite. Part II: Theoretical modeling of fatigue behavior. Metallurgical and Materials Transactions 26A:  3,249–3,255.

Dunn, D.S., N. Sridhar, and G.A. Cragnolino. Effects of Surface Chromium Depletion on Localized Corrosion of Alloy-825 as a High-Level Nuclear Waste Container Material. Corrosion. 51(8):618-624. 1995.

Geesey, G. and G.A. Cragnolino. A Review of the Potential for Microbially Influenced Corrosion of High-Level Nuclear Waste Containers in a Unsaturated Repository Site. 1995 International Conference on Microbially Influenced Corrosion. NACE International. Houston, Texas. pp. 76/1–76/20. 1995.

Liaw, P.K., E.S. Diaz, K.T. Chiang, and D.H. Loh. 1995. Materials characterization of silicon carbide reinforced titanium (Ti-SCS-6) metal matrix composite. Part I: Tensile and fatigue behavior. Metallurgical and Materials Transactions 26A: 3,225–3,247.

Sridhar, N., D.S Dunn, and G.A. Cragnolino. The Use of Repassivation Potential in Predicting the Performance of High-Level Nuclear Waste Container Materials. Scientific Basis of Nuclear Waste Management XVIII. T. Murakani and R.C. Ewing (Eds.). Materials Research Society. Pittsburgh, Pennsylvania. Symposium Proceedings. 353:663–670, Part 1. 1995.

1994

Cragnolino, G.A., and N. Sridhar, eds. 1994. Application of accelerated corrosion test to service life prediction of materials (edited volume). ASTM STP1194.  Philadelphia, Pennsylvania: American Society for Testing and Materials.

Sridhar, N., and D.S. Dunn. 1994. Effect of applied potential on changes in solution chemistry inside crevices on Type 304L stainless steel and Alloy 825. Corrosion 50(11):  847–872.

Sridhar, N., G. Cragnolino, J. Walton, and D. Dunn. Prediction of Localized Corrosion Using Modeling and Experimental Techniques. Application of Accelerated Corrosion Tests to Service Life Prediction of Materials. G. Cragnolino and N. Sridhar (Eds.). American Society for Testing and Materials. Philadelphia, Pennsylvania. ASTM STP 1194. pp. 204–223. 1994.

Sridhar, N., G. Cragnolino. H. Pennick, and T. Torng. Application of a Transient Crevice Corrosion Model to the Prediction of Performance of High-Level Nuclear Waste Container Materials. Life Prediction of Corrodible Structures. R.N. Parkins (Ed.). NACE International. Houston, Texas. 1:429–453. 1994.

Walton, J.C., N. Sridhar, G. Cragnolino, T. Torng, and P. Nair. An Approach to Analysis of High Level Waste Container Performance in an Unsaturated Repository Environment. Scientific Basis of Nuclear Waste Management XVII. A. Barkatt and R. van Konynenburg (Eds.) Materials Research Society. Pittsburgh, Pennsylvania. Symposium Proceedings. 333:863–868. 1994.

1993

Dunn, D.S., N. Sridhar, and G. Cragnolino. The Effect of Surface Conditions on the Localized Corrosion of a Candidate High-Level Nuclear Waste Container Material. Proceedings of the 12th International Corrosion Congress. NACE International. Houston, Texas. 5B:4021–4030. 1993.

Sridhar, N., and G. Cragnolino. Repassivation Potentials for Long-Term Life Prediction of Localized Corrosion. Scientific Basis for Nuclear Waste Management XVI. C.G. Interrante and R.T. Pabalan. Materials Research Society. Pittsburgh, Pennsylvania. Symposium Proceedings 294:649–654. 1993.

Sridhar, N., and G.A. Cragnolino. 1993. Effects of environment on localized corrosion of copper-based, high-level waste container materials. Corrosion 49(12): 967–976. December 1993.

Sridhar, N. and G.A. Cragnolino. Applicability of Repassivation Potential for Long-Term Prediction of Localized Corrosion of Alloy-825 and Type-316l Stainless-Steel. Corrosion. 49(11):885-894. 1993.

1992

Sridhar, N., and G.A. Cragnolino. 1992. Stress corrosion cracking of nickel-base alloys. Stress Corrosion Cracking: Materials Performance and Evaluation. Russell H. Jones, ed. Materials Park, Ohio: ASM International. 131–179.

Sridhar, N., G.A. Cragnolino, and W. Machowski. Environmental Effects on Localized Corrosion of a High-Level Nuclear Waste Container Material. Scientific Basis for Nuclear Waste Management XV. T.A. Abrajano and L.H. Johnson (Eds.). Materials Research Society. Pittsburgh, Pennsylvania. Symposium Proceedings. 212:269–277. 1992.

1991

Cragnolino, G.A. and N. Sridhar. Localized Corrosion of a Candidate Container Material for High-Level Nuclear Waste-Disposal. Corrosion. 47(6):464-471. 1991.

Durandkeklikian, L., G. Cragnolino, and D.D. Macdonald. Exsitu AC Impedance Studies of Oxide Film Growth on Zircaloys in High-Temperature High-Pressure Steam. Corrosion Science. 32(3):347. 1991.

Durandkeklikian, L., G. Cragnolino, and D.D. Macdonald. Insitu AC Impedance Studies of Oxide Film Growth on Zircaloy-4 in High-Temperature High-Pressure Steam. Corrosion Science. 32(3):361-365. 1991.

Corrosion Science and Process Engineering
Geosciences and Engineering
SwRI Publications separate.gif (834 bytes) SwRI Home

December 08, 2008