Literature dealing with corrosion induced by alternating currents (AC) is examined in this review of the considerable quantity of laboratory test and field test data that has appeared in the literature over the last 50 years or more. These data provide insight not only into the presence or absence of AC induced effects under various conditions of environment and materials but also into the influence of these effects on corrosion rate.
CHIND. T. and VENKATESHS.: J. Electrochem. Soc., 19791261908.
3.
BERTOCCIU.: Corrosion197935221.
4.
MCKUBREM. C. H.: ‘On-line corrosion monitoring in cathodi-cally protected systems’Final EPRI Report No. CS-5695 on Project1689–7May 1988.
5.
LALVANIS. B. and LINX. A.: Corros. SCi., 1994361039.
6.
IAVANIS. B. and LINX. A.: Corros. Sci1996381709.
7.
DEVAYJ. and MESZAROSL.: Acta Chim. Hung., 19654325.
8.
DEVAYJ. and MESZAROSL.: Acta Chim. Hung., 196544397.
9.
DEVAYJ. and MESZAROSL.: Acta Chim. Hung., 196545119.
10.
NACE Standard RP0177-2000, ‘Mitigation of alternating current and lighting effect on metallic structures and corrosion control systems’NACEHouston, TX2000.
11.
KIRKPATRICKE. L.: Mater. Performance19953414.
12.
CHIND. T. and FUT. W.: Corrosion197935514.
13.
VENKATESHS. and CHIND. T.: Electrochem. Soc., 19811282588.
14.
WENDTJ. L. and CHIND. T.: Corros. SCi., 198525889.
15.
PAGANOM. A. and LALVANIS. B.: Corros. SCi., 199436127.
16.
LALVANIS. B. and ZHANGG.: Corros. Sci1995371567.
17.
LALVANIS. B. and ZHANGG.: Corros. Sci1995371583.
18.
GEHRINGG. A.: NACE J9–11Sept. 1987.
19.
MARSHS.: Proc. R. Soc., 192097124.
20.
SILVERMANJ. and RENNICKA. E.: J. Electrochem. Soc., 195097335.
21.
AMYL. and MOUNIOSC.: Rev. Gen. Electr., 195766187.
22.
BENTLYR. and PRENTICET. R.: J. Appl. Chem., 19577619.
23.
FACHSW.STEINRATHH. and TERNESH.: Das Gas- Und Wasser-fach19589926.
24.
BRUCKNERW. H. and JANSSONO. G.: Corrosion19571567.
25.
FUNKD.PRINZW. and SCHONEICHH.-G.: 3R International199231336–341.
26.
HAYDENJ. L. R.: AIEETrans., 1907, 26.
27.
MCCOLLUMB. and HG. AHLBORN: ‘Influence of frequency of alternating or infrequently reversed current on electrolytic corrosion’, Bureau of Standards Technologic paper No.721916.
28.
SHEPARDE. R.: Trans. Am. Electrochem. Soc., 19213923.
29.
MILLERK. W.: ‘Electrolysis of AC cables’. Report of Underground Systems CommitteeCommonwealth Edison Co.1926- 1927.
30.
SHEARINGH. R. and KIRKEW. B.: Electrical World92 October 1928.
31.
SHIPLEYJ. W.: Can. J. Res., 19291305.
32.
ROGERSM. J. and SHIPLEYJ. W.: Can. J. Res., 193917B147.
33.
DARATTJ. P.: Gas195430124.
34.
WOODWARDW. S.: Corrosion19561217.
35.
HARINGH. E.: J. Electrochem. Soc., 19529930.
36.
MOLEG. and HAMMONDD. P.: ‘Does stray alternating current corrode water systems? Investigation of installation at Rockdale’Electrical and Applied Industries Research Association1958.
37.
GODARDH. P. and WILLIAMSJ. F.: Mater. Prot., 1967665.
38.
BRUCKNERW. H.: Engineering experiment station bulletin 470University of Illinois bulletin62No.32November 1964.
39.
WILLIAMSJ. F.: Mater. Prot., 1966568.
40.
WILLIAMSJ. F.: Mater. Prot., 1967650.
41.
HIGGINSW. H.: Mater. Prot., 1966568.
42.
DABKOWSKIJ. and TAFLOVEA.: ‘Mutual design considerations for overhead AC transmission lines and gas transmission pipelines’Engineering analysis report EL-904Vol.1American Gas Association and EPRI.September 1998.
43.
PEABODYA. W. and SIEGFRIEDC. C.: ‘Corrosion control problems and personnel hazard control problems caused by HV DC and HV AC transmission systems on non-associated underground facilities’, CIGRE1974 Session 36–03.
44.
JACQUETB. and MOOREW. B.: ‘Influence des courants de term sur les canalisations et cables enterres’, CIGRE1988Session36–06.
45.
GALIMBERTIC. E.: Corrosion196420150.
46.
COLLINGSL. V.: Corrosion 76NACEHouston March 197622–26.
47.
MILLERR. L.HARTYW. H. and BROWNR. P.: Mater. Performance19761520–27.
48.
RUEDISUELIR. L.HAGERH. E. and SANDWITHC. J.: Corrosion19874363.
49.
BOSCHR. W. and BOGAERTSW. F.: Corros. SCi., 199840323.
50.
DEVAYJ.TAKACST. and ABD EL-REHIMS. S.: Acta Chimica19675263.
51.
GUMMOWR. A.: ‘Cathodic protection considerations for pipelines with AC mitigation facilities’. Report for PRC International and American Gas Ass.PR-262-98091999.
52.
The CEOCOR Booklet, Proc. 5th Int.Congress CeocorBrusselsMay2000.
53.
WAKELINR. G.GUMMOWR. A. and SEGALLS. M.: Corrosion 98NACE1998 Paper No. 565.
54.
HEIMG. and PEEZG.: ‘The influence of alternating current on buried and cathodically protected high pressure gas pipelines’Gas-Erdgas1992133 No.3.
55.
RAGAULTI.: Corrosion 98NACE1998 Paper No. 557.
56.
RAGAULTI.: ‘Corrosions dues aux influences des courants alternatifs par des lignes THT sur des canalizations en acier du reseau de transport de GDF’2emes Journees du CefracorAix en Provence. 1–3JUNE 1999.
57.
CARPENTIERSP.KISSELJ.POURBAIXA.VAN HEMELRUCKL.DE RIDDERL.BLUMENFRUCHTI. and WERKMANJ.: ‘Corrosion par les courants alternatifs’. Rapports Techniques CEBELCORVol.165RT. 3141996.
58.
CARPENTIERSP.POURBAIXA.BLUMENFRUCHTI.WERKMANJ.GREGOORR.DE RIDDERL. and UYTTENDAELEW.: Eurocorr 98, WP 8, NCC.
59.
POURBAIXA.CARPENTIERSP. and GREGOORR.: Eurocorr2001EFCRiva del Garda September-October 2001.
60.
MATEOM. L. and OTEROT. F.: J. Appl. Electrochem., 1990, 2026.