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Dr. I. Le May, P. Eng.

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Dr. R. Pascual, P. Eng.

Selected Publications

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Dr. S. Shipilov

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Selected Articles/Papers

Patent

Selected Articles and Papers

Dr. Sergei Shipilov

Journal Articles:

1.    S.A. Shipilov, “Solving Some Key Failure Analysis Problems Using Advanced Methods for Materials Testing,” (M. Brian Ives Lecture), Engineering Failure Analysis 14 (2007) 1550-1573.

2.    S.A. Shipilov and I. Le May, “Structural Integrity of Aging Buried Pipelines Having Cathodic Protection,” Engineering Failure Analysis 13 (2006) 1159-1176.

3.    S.A. Shipilov, “Advanced Testing Methods for Studying the Mechanical Behavior of Materials,” JOM 57(3) (2005) 36-42.

4.    S.A. Shipilov, “Location of the Fracture Process Zone for Hydrogen-Induced Corrosion Fatigue Crack Propagation,” Scripta Materialia 47 (2002) 301-305.

5.    S.A. Shipilov, “Mechanisms for Corrosion Fatigue Crack Propagation,” Fatigue & Fracture of Engineering Materials & Structures 25 (2002) 243-259; also published in the Journal of Chinese Society for Corrosion and Protection 24 (2004) 321-333 (Chinese translation by Hong Wang).

6.    S.A. Shipilov, “Corrosion Fatigue Crack Growth Behavior of Titanium Alloys in Aqueous Solutions,” Corrosion 54 (1998) 29-39.

7.    S.A. Shipilov, “Environment-Assisted Cracking of Materials as a Significant Cause of Engineering Systems Malfunctions,” (Invited review), Technology, Law & Insurance 1 (1996) 131-142; also published in Atomnaia Tekhnika za Rubezhom 41(8) (1997) 11-22 (Russian translation by G.A. Kotelnikov).

 
Papers in Refereed Conference Proceedings:

1.    S.A. Shipilov, “What Corrosion Costs Canada; Or, Can We Afford to Ignore Corrosion?” in: C. Barry and P. Wanjara (Eds.), Materials Development and Performance of Sulphur Capture Plants, CIM, Montreal, 2009, pp. 55-76.

2.    S.A. Shipilov, “Corrosion Protection: An + or – in Pipeline Safety and Reliability?” in: R.K. Penny (Ed.), Risk, Economy and Safety, Failure Minimisation and Analysis, EMAS, Sheffield, 2004, pp. 177-185.

3.    S.A. Shipilov, “The Increment of Hydrogen-Induced Corrosion Fatigue Crack Growth per Cycle: Comparing Theory and Experimental Data,” in: N.R. Moody, A.W. Thompson, R.E. Ricker, G.W. Was, and R.H. Jones (Eds.), Hydrogen Effects on Material Behavior and Corrosion Deformation Interactions, TMS, Warrendale, PA, 2003, pp. 607-616.

4.    S.A. Shipilov, “Critical Assessment of the Role of Cathodic Protection in Pipeline Integrity and Reliability,” in: P.E.J. Flewitt, P.F. Heyes, J. Schofield, R.A. Smith, A. Turnbull, B. Tomkins, and C.S. Wiesner (Eds.), Engineering Structural Integrity: Needs and Provision, EMAS, Sheffield, 2002, pp. 155-162.

5.    S.A. Shipilov, “Catastrophic Failures due to Environment-Assisted Cracking of Metals: Case Histories,” in: M. Elboujdaini and E. Ghali (Eds.), Environmental Degradation of Materials and Corrosion Control in Metals, CIM, Montreal, 1999, pp. 225-241.

6.    S.A. Shipilov, “Fracture Process Location Ahead of a Growing Hydrogen-Induced Corrosion Fatigue Crack: Experimental Observations,” in: M. Elboujdaini and E. Ghali (Eds.), Environmental Degradation of Materials and Corrosion Control in Metals, CIM, Montreal, 1999, pp. 259-273.

7.    S.A. Shipilov, “Effect of Applied Potential on the Corrosion Crack Growth Rate in Titanium Alloys,” in: V.V. Panasyuk, D.M.R. Taplin, M.C. Pandey, O.Ye. Andreykiv, and P. Rama Rao (Eds.), Advances in Fracture Resistance in Materials, Vol. 2, Tata McGraw-Hill, New Delhi, 1996, pp. 469-476.


Last modified: 12 December, 2011

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