1 |
J. Y. Zou, and D. T. Chin, ‘Anodic Behavior of Carbon Steel in Concentrated NaOH Solutions’, Electrochimica Acta, 33(4), 477 (1988)
|
2 |
J. Y. Zou, and D. T. Chin, ‘Mechanism of Steel Corrosion in Concentrated NaOH Solutions’, Electrochimca Acta, 32(12), 1751 (1987)
|
3 |
Y. J. Kim, C. C. Lin, and R. Phathania, ‘Electrochemical Corrosion Potential Measurement with a Rotating Cylinder Electrode in 288 Water’, Proc. Of the Water Chemistry of Nuclear Reactors System 6, BNES p.139 (1992)
|
4 |
K. Denpo and H. Ogawa, ‘Fluid Flow Effects on Corrosion Resistance of Oil Well Materials’, Corrosion, 49(6), 442 (1993)
|
5 |
D. A. JONES, Principles and prevention of Corrosion 357 (1992)
|
6 |
KINS REPORT, No. 756.05
|
7 |
W. J. Shack, Proc. of the 3rd International Symposium on Environmental Degradation of Materials in Nuclear Power Systems - Water Reactors 55 (1988)
|
8 |
B. Chexal, ‘Flow-Accelerated Corrosion in Power Plant’, EPRI report TR-106611, pp.4-33 (1996)
|
9 |
K. A. Burill, and E. L. Cheluget, ‘Corrosion of CANDU Outlet Feeder Pipes’, JAIF Int'l Conf. On Water Chemistry 699 (1998)
|
10 |
J. H. Kim and I. S. Kim, ‘Environmentally Assisted Crack Growth Behavior of SA508 Cl.3 Pressure Vessel Steel’, Proc. of the KNS Spring Meeting, 154 (1998)
|
11 |
J. G. Kim, ‘A Study on the Flow-Accelerated Corrosion Characteristics of Galvanically Coupled Dissimilar Metals’, 1st Workshop on the Evaluation of Pipe Wall Thinning in Nuclear Power Plants, KINS/PR-012 (2000)
|
12 |
T. Misawa, ‘The Thermodynamic Consideration for System at 25 , Corr. Sci., 13, 659 (1973)
|
13 |
V. Shah, and P. E. Macdonald, Aging and Life Extension of Major Light Water Reactor Components 523 (1993)
|
14 |
G. Bellanger, ‘Effect of carbonate in slightly alkaline medium on the corrosion of maraging steel’, J of Nucl. Mat., 217, 187 (1994)
|
15 |
S. W. Dean, ‘Velocity-Accelerated Corrosion Testing and Predictions’, Material Protection, Sept p.61 (1990)
|