Advances in materials performance often require the development of composite systems, of which coated materials are one form. The abrasion and corrosion resistance of components can be greatly increased by protective coatings and this is a growing industry of considerable economic importance. Coatings are used in both aqueous and high temperature applications. Coal gasification, electric power generation, and waste incineration involve severe conditions and thick coatings have proved effective. Diesel and gas turbine engines are subject to high temperature corrosion and highly beneficial coatings have been developed. Some nuclear power systems also rely on coatings. Factors that must be taken into account include substrate compatibility, adhesion, porosity, the possibility of repair or recoating, interdiffusion, the effect of thermal cycling, resistance to wear and corrosion, and cost. This review of alternative systems emphasises the necessity for the coating and substrate to be designed as an integrated whole, bearing all of these considerations in mind.
Get full access to this article
View all access options for this article.
References
1.
HockingM. G., VASANTASREEV. V., and SIDKYP. S.: ‘Metallic and ceramic coatings - production, high temperature properties and applications’, 1989, Harlow, Longman/New York, Wiley.
2.
DearnaleyG., FREEMANJ. H., NELSONR. S., and STEPHENJ.: ‘Ion implantation’, 1973, Amsterdam, North Holland.
KramerB. M. and JUDDR. K.: J. Vac. Sci. Technol. A, 1985, 3, (6), 2439.
24.
SaitoY., SATOK., MATUDAS., and KOINUMAH.: J. Mater. Sci., 1991, 26, 2937.
25.
ChildH. C.: in ‘Coatings for high temperature applications’, (ed. LangE.), 395; 1983, New York, Applied Science.
26.
RickerbyD. S. and BURNETTR. J.: Surf. Coat. Technol., 1987, 33, 191.
27.
TuckerR. C.: in ‘Films and coatings for technology’, (ed. JacobsonB. E. and BunshahR. F.); 1981, Stockholm, Centre for Education and Information.
28.
MattoxD. M.: ‘Ion plating technology in films and coatings for technology’, (ed. JacobsonB. E. and BunshahR. F.), Vol. 1; 1981, Stockholm, Centre for Education and Information.
29.
GardnerP. R.: ‘Recent developments in the United Kingdom in ion implantation equipment for engineering components’, Report, AERE, Harwell, 1987.
30.
GardnerP. R., DEARNALEYG., and ROSENBAUMS.: Surf. Eng., 1987, 3, (3), 203–209.
31.
DuboisJ. M., KANGS. S., and VON STUBBUTJ.: J. Mater. Sci., 1991, 10, 537.
32.
RaaskE.: ‘Erosion wear in coal utilization':1988, New York, Hemisphere.
33.
StottF. H. and WOODG. C.: in ‘High temperature corrosion’, (ed. RappR. A.), 406; 1981, Houston, TX, NACE.
34.
RaghuramA. C. and BUNSHAHR. F.: J. Vac. Sci. Technol., 1972, 9, 1389.
35.
PepperS. V.: ‘Nitrogen in hard coatings’, Technical Memorandum TM 78838, NASA, Baltimore, MD, 1978.
36.
BrainardW. A. and WHEELERD. R.: ‘Ti and N hard coatings’, Technical Publication TP1377, NASA, Baltimore, MD, 1979.
37.
MathewsA. and TEERD. G.: Thin Solid Films, 1980, 72, 541.
38.
EnomotoY., YAMANAKAK., and MIZUHARAK.: Proc. 7th Int. Conf. on Vacuum Metallurgy, Tokyo, April1982, American Vacuum Society, 209.
39.
MorojimaS.et al.: J. Mater. Sci., 1979, 14, (2), 496.
40.
KirnerK.: Proc. 7th Int. Metal Spraying Conf., London, September1973, Metal Spraying Society, 190.
41.
PraterJ. T.: Surf. Coat. Technol., 1986, 29, 247.
42.
DanrocJ., AUBERTA., and GILLETR.: Thin Solid Films, 1987, 153, 281.
43.
DanrocJ., AUBERTA., and GILLETR.: Surf. Coat. Technol., 1987, 33, 83.
44.
SueJ. A. and TROUEH. H.: Surf. Coat. Technol., 1987, 33, 169.
45.
GilletR., AUBERTA., and GAUCHERA.: Met. Technol., 1983, 10, 115.
46.
FenskeG. R., KAUFHERRN., and SPROULW. D.: Thin Solid Films, 1987, 153, 159.
47.
RothTh., KLOOSK. H., and BROSZEIT:E.Thin Solid Films, 1987, 153, 123.
48.
HermanH.: in ‘Ion implantation into metals’, (ed. AshworthV. et al), 102; 1982, Oxford, Pergamon.
49.
HaleE. B. et al.: in ‘Ion implantation into metals’, (ed. AshworthV. et al.), 111; 1982, Oxford, Pergamon.
50.
Zhong-YinX.et al.: in ‘Ion implantation into metals’ (ed.AshworthV. et al), 117; 1982, Oxford, Pergamon.
51.
DelvesB. G.: in ‘Ion implantation into metals’, (ed. AshworthV. et al), 126; 1982, Oxford, Pergamon.
52.
RobertsS. G. and PAGET. F.: in ‘Ion implantation into metals’, (ed. AshworthV. et al), 135; 1982, Oxford, Pergamon.
53.
DearnaleyG.: in ‘Ion implantation into metals’, (ed. AshworthV. et al), 180; 1982, Oxford, Pergamon.
54.
PadmanabhanH. R. and SORENSENG.: in ‘Ion implantation into metals’, (ed.AshworthV. et al), 352 and 361; 1982, Oxford, Pergamon.
55.
SundgrenJ. E. and HENTZELH. T. G.: J. Vac. Sci. Technol. A, 1986, 4, (5), 2259.
56.
KramerB. M.: J. Vac. Sci. Technol. A, 1986, 4, (6), 2810 and 2870.
DearnleyP. A., THOMPSONV., and GREANSONA. N.: Surf. Coat. Technol., 1986, 29, 157.
59.
BovingM. and HINTERMANH. E.: Thin Solid Films, 1987, 152, 253.
60.
BlocherJ. M.: J. Vac. Sci. Technol., 1974, 11, (4), 680.
61.
MorojimaS., IWAMORIN., HALTORIT., and KURASAWAK.: J. Mater. Sci., 1986, 21, 1363.
62.
SamsonovG. V.(ED.): ‘Protective coatings on metals’, Vol. 5; 1973, New York, Consultants Bureau.
63.
NiiharaK. and HIRAIT.: Proc. 7th Int. Conf. on Vacuum Metallurgy, Tokyo, April1982, American Vacuum Society, 180.
64.
TuckerR. C.: J. Vac. Sci. Technol., 1974, 11, (4), 725.
65.
CleggM. A., SILINSV., and EVANSD. J. I.: Proc. 7th Int. Metal Spraying Conf., London, September1973, Metal Spraying Society, 62.
66.
BarnhartR. E.: ‘The contribution of metallic and ceramic coatings to gas turbine engines’, contributed by Gas Turbine Division, ASME, to Gas Turbine Conf. and Products Show, Washington, DC, 1968.
67.
SueJ. A. and TUCKERR. C.: Surf. Coat. Technol., 1987, 32, 237.
68.
DE-HEG.et al.: Proc. 7th Int. Conf. on Vacuum Metallurgy, Tokyo, April1982, American Vacuum Society, 352.
69.
GagnetW. J.: ‘Flame spray coating for wear’, Society of Automotive Engineers, Midyear Meeting, Chicago, IL, May 1969.
70.
MessbacherA.: Werkstattstech. Z. Ind. Fertigung, 1975, 65, 619.
71.
SolomirJ. G.: Proc. 7th Int. Metal Spraying Conf., London, September1973, Metal Spraying Society, 194.
72.
SteffensH. D.: in ‘Coatings for high temperature applications’, (ed. LangE.), 121; 1983, New York, Applied Science.
73.
LowenheimF. W.(ed.): ‘Modern electroplating':1963, New York, Wiley.
74.
‘Yearly handbook’, Canning and Co., Birmingham, UK.
75.
MantellC. E.(ed.): ‘Encyclopedia of electrochemistry':1964, New York, Elsevier.
76.
BockrisJ. O. M. and REDDYA. K. N.: in ‘Modern electrochemis-try’, 22; 1970, New York, Plenum.
77.
GawneD. T. and DESPRESN. J.: J. Vac. Sci. Technol. A, 1985, 3, 2334.
78.
KedwardE. C. and WRIGHTK. W.: Plat. Surf. Finish., August 1978, 38.
MAU. and GawneD. T.: Galvanotechnik, 1985, 76, 1650.
81.
ThomaM.: J. Vac. Sci. Technol. A, 1986, 4, 2633.
82.
HockingM. G.: Proc. Conf. on ‘Role of minor elements on performance of high temperature alloys':1993, London, The Institute of Materials.
83.
HockingM. G.: in ‘High temperature materials chemistry: the Charles Benjamin Alcock symposium’, (ed. SteeleB. C. H.), 149–159; 1995, London, The Institute of Materials.
84.
McleanM. and HOCKINGM. G.: Proc. Conf. ‘Cobalt 93’, London, 1993, Cobalt Development Association.
