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Introduction to Corrosion Science
Passive films, which were studied in the previous chapter, are remarkable in their ability to provide corrosion protection to a wide variety of metals and alloys. However, passive films are not perfect and often suffer localized breakdown at certain specific areas. Although the remainder of the passive film may remain intact and continue to offer protection against general corrosion, the occurrence of localized corrosion is dangerous because it is concentrated at a fixed area and can lead to catastrophic failure of the metal piece. In addition, the presence of localized corrosion is usually more difficult to detect than general corrosion.
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1.
2.
I. L. Rosenfeld and I. K. Marshakov,
Corrosion,
20, 115t (1964).
3.
I. B. Ulanovski and Y. M. Korovin,
J. Appl. Chem. USSR,
35, 1683 (1962).
4.
5.
M. H. Peterson, T. J. Lennox, Jr., and R. E. Groover,
Mater. Protect. Perform.,
9 (1), 23 (1970).
6.
7.
F. D. Bogar and C. T. Fujii, Solution Chemistry in Crevices on Fe-Cr Binary Alloys, NRL Report 7690, Naval Research Laboratory, Washington, DC, March 21, 1974
8.
I. L. Rosenfeld in Localized Corrosion, R. W. Staehle, B. F. Brown, J. Kruger, and A. Agrawal, Eds., p. 373, National Association of Corrosion Engineers, Houston, TX (1974).
9.
T. Suzuki, M. Yamabe, and Y. Kitamura,
Corrosion,
29, 18 (1973).
10.
11.
M. G. Fontana and N. D. Greene, Corrosion Engineering, p. 43, McGraw-Hill, New York (1978).
12.
13.
14.
Standard Test Method G-48-97, 1998 Annual Book of ASTM Standards”, ASTM, West Conshohocken, PA (1998).
15.
16.
E. McCafferty, F. D. Bogar, E. D. Thomas, C. A. Creegan, K. E. Lucas, and A. I. Kaznoff,
Corrosion,
53, 755 (1997).
CrossRef
17.
18.
O. B. Ellis and F. L. LaQue,
Corrosion,
7, 362 (1951).
19.
T. J. Lennox, Jr. and M. H. Peterson in “Localized Corrosion”, R. W. Staehle et al., Eds., p. 173, National Association of Corrosion Engineers, Houston, TX (1974).
20.
V. R. Pludek, “Design and Corrosion Control”, p. 173, John Wiley and Sons, New York, NY (1977).
21.
A. J. Sedriks, “Corrosion of Stainless Steels”, p. 201, Wiley-Interscience, New York (1996).
22.
E. McCafferty, P. P. Trazskoma, and P. M. Natishan in “Advances in Localized Corrosion”, H. S. Isaacs, U. Bertocci, J. Kruger, and S. Smialowska, Eds., p. 181, National Association of Corrosion Engineers, Houston, TX (1990).
23.
J. R. Galvele in “Passivity of Metals”, R. P. Frankenthal and J. Kruger, Eds., p. 285, The Electrochemical Society, Princeton, NJ (1978).
24.
25.
R. E. Groover, T. J. Lennox, Jr., and M. H. Peterson,
Mater. Protect.,
8 (11), 25 (1969).
26.
27.
28.
S. Szklarska-Smialowski in “Advances in Localized Corrosion”, H. S. Isaacs, U. Bertocci, J. Kruger, and S. Smialowska, Eds., p. 41, National Association of Corrosion Engineers, Houston, TX (1990).
29.
30.
31.
P. M. Natishan, W. E. O'Grady, E. McCafferty, D. E. Ramaker, K. Pandya, and A. Russell,
J. Electrochem. Soc.,
146, 1737 (1999).
CrossRef
32.
L. A. Krebs and J. Kruger in “Passivity of Metals and Semiconductors”, M. B. Ives, J. L. Luo, and J. R. Rodda, Eds., p. 561, The Electrochemical Society, Pennington, NJ (2001).
33.
34.
35.
36.
37.
S. Yu, W. E. O'Grady, D. E. Ramaker, and P. M. Natishan,
J. Electrochem. Soc.,
147, 2952 (2000).
CrossRef
38.
39.
40.
W. A. Badawy, M. M. Ibrahim, M. M. Abou-Romia, and M. S. El-Bosiouny,
Corrosion,
42, 324 (1986).
CrossRef
41.
I. L. Rosenfeld in “Proceedings of the Fifth International Congress on Metallic Corrosion”, p. 53, NACE, Houston, TX (1974).
42.
43.
44.
45.
46.
I. L. Rosenfeld, I. S. Danilov, and R. N. Oranskaya, J. Electrochem.
Soc.,
125, 1729 (1978).
CrossRef
47.
48.
T. Hakkarainen in Proceedings of the Eighth International Congress on Metallic Corrosion, Vol. 1, p. 157, DECHEMA, Frankfurt am Main, (1981).
49.
R. C. Newman and H. S. Isaacs in “Passivity of Metals and Semiconductors”, M. Froment, Ed., p. 269, Amsterdam (1983).
50.
51.
52.
M. Pourbaix in “Localized Corrosion”, R. W. Staehle, B. F. Brown, J. Kruger, and A. Agrawal, Eds., p. 12, National Association of Corrosion Engineers, Houston, TX (1974).
53.
R. A. Bonewitz and E. D. Verinck, Jr.,
Mater. Perform.,
14 (8), 16 (1975).
54.
K. K. Starr, E. D. Verinck, Jr., and M. Pourbaix,
Corrosion,
32, 47 (1976).
55.
E. D. Verinck, Jr., and M. Pourbaix,
Corrosion,
27, 495 (1971).
56.
E. D. Verinck, Jr., K. K. Starr, and J. M. Bowers,
Corrosion,
32, 60 (1976).
57.
A. J. Sedriks in “Corrosion of Stainless Steels”, p. 123, Wiley-Interscience, New York (1996).
58.
C. R. Clayton and I. Olejford in “Corrosion Mechanisms in Theory and Practice”, P. Marcus and J. Oudar, Eds, p. 175, Marcel Dekker, New York, NY (1995).
59.
60.
61.
A. J. Sedriks in A. J. Sedriks, “Corrosion of Stainless Steels”, p. 24, Wiley-Interscience, New York (1996).
62.
63.
B. Vuillemin, X. Phillipe, R. Oltra, V. Vignal, L. Coudreuse, L. C. Dufour, and E. Finot,
Corros. Sci.,
45, 1143 (2003).
CrossRef
64.
M. P. Ryan, D. E. Williams, R. J. Chater, B. M. Hutton, and D. S. McPhail,
Nature,
415, 770 (2002).
CrossRef
65.
K. D. Efird and G. E. Moller,
Mater. Perform.,
18 (7), 34 (1979).
66.
R. J. Brigham,
Corrosion,
30, 396 (1974).
67.
68.
69.
70.
L. Tomcsanyi, K. Varga, I. Bartik, G. Horanyi, and E. Maleczki,
Electrochim. Acta,
34, 855 (1989).
CrossRef
71.
72.
C. B. Bargeron and R. B. Givens,
Corrosion,
36, 618 (1980).
73.
74.
W. Hübner and G. Wranglen in “Current Corrosion Research in Scandinavia”, p. 60, Kemian Keskusliitto, Helsinki, Finland (1965).
75.
76.
B. F. Brown,
Corrosion,
26, 249 (1970).
77.
78.
M. Pourbaix in “The Theory of Stress Corrosion Cracking in Alloys”, J. C. Scully, Ed., NATO, Brussels, Belgium (1971).
79.
M. Pourbaix in Localized Corrosion”, R. W. Staehle, B. F. Brown, J. Kruger, and A. Agrawal, Eds., p. 12, National Association of Corrosion Engineers, Houston, TX (1974).
80.
81.
N. J. H. Holroyd, G. M. Scamans, and R. Hermann in “Corrosion Chemistry within Pits, Crevices and Cracks”, A. Turnbull, Ed., p. 495, Her Majesty's Stationary Office, London (1987).
82.
J. A. Davis in “Localized Corrosion”, R. W. Staehle, B. F. Brown, J. Kruger, and A. Agrawal, Eds., p. 168, National Association of Corrosion Engineers, Houston, TX (1974).
83.
O. V. Kurov and R. K. Melekhov,
Protection Metals,
15, 249 (1979).
84.
85.
86.
87.
H. S. Isaccs in “Localized Corrosion”, R. W. Staehle, B. F. Brown, J. Kruger, and A. Agrawal, Eds., p. 158, National Association of Corrosion Engineers, Houston, TX (1974).
88.
H. S. Isaacs in “Advances in Localized Corrosion”, H. S. Isaacs, U. Bertocci, J. Kruger, and S. Smialowska, Eds., p. 221, National Association of Corrosion Engineers, Houston, TX (1990).
89.
J. P. H. Sukamto, W. H. Smyrl, N. Casillas, M. Al-Odan, P. James, W. Jin, and L. Douglas,
Mater. Sci., Eng.,
A198, 177 (1995).
90.
91.
92.
93.
Y. C. Chen and J. R. Stephens,
Corrosion,
35, 443 (1979)
94.
M. G. Alvarez and J. R. Galvele,
Corrosion,
32, 285 (1976).
95.
96.
97.
98.
99.
Y. F. Wang , C. R. Clayton, G. K. Hubler, W. H. Lucke, and J. K. Hirvonen,
Thin Solid Films,
63, 11 (1978).
CrossRef
100.
J. G. N. Thomas and A. K. Tiller,
Br. Corros. J.,
7, 256 91972).
101.
G. Cragnolino and J. R. Galvele in “Passivity of Metals”, R. P. Frankenthal and J. Kruger, Eds, p. 1053, The Electrochemical Society, Princeton, NJ (1978).
102.
103.
C. T. Fujii, “Electrochemical and Chemical Aspects of Localized Corrosion”, Rapport Technique 213, CEBELCOR, Belgium (1974).
104.
A. Pourbaix,
Corrosion,
27, 449 (1971).
105.
C. W. Petersen, G. C. Soltz, and K. Mairs,
Corrosion,
30, 366 (1974).
- Titel
- Crevice Corrosion and Pitting
- DOI
- https://doi.org/10.1007/978-1-4419-0455-3_10
- Autor:
-
E. McCafferty
- Verlag
- Springer New York
- Sequenznummer
- 10
- Kapitelnummer
- Chapter 10