Influence of fouling assemblage on the corrosion behaviour of mild steel in the coastal waters of the Gulf of Mannar, India

G. Subramanian , S. Palanichamy

Journal of Marine Science and Application ›› 2013, Vol. 12 ›› Issue (4) : 500 -509.

PDF
Journal of Marine Science and Application ›› 2013, Vol. 12 ›› Issue (4) :500 -509. DOI: 10.1007/s11804-013-1222-x
Research Papers
Influence of fouling assemblage on the corrosion behaviour of mild steel in the coastal waters of the Gulf of Mannar, India
Author information +
History +
PDF

Abstract

Corrosion behaviour and biofouling characteristics of mild steel in three different coastal locations in the Gulf of Mannar, India have been studied over a period of 24 months. Oyster fouling was predominant at Open sea — Tuticorin, while barnacle fouling was dominant at both Mandapam and Harbour — Tuticorin. The rate of corrosion for 24 months exposure period was highest at Mandapam, where fouling was minimal. The surface of the mild steel was characterized by etchings & crevices beneath the hard foulers attached on it, at all the test locations. The depth of crevice caused by hard foulers was higher at Open sea — Tuticorin followed by Harbour — Tuticorin and Mandapam. The loss in ultimate tensile strength was more in Open sea — Tuticorin than the other two locations. Corrosion behaviour of mild steel is discussed based on the variation in the biofouling assemblage at the three test locations.

Keywords

mild steel / coastal waters / crevice corrosion / biofouling / ultimate tensile strength

Cite this article

Download citation ▾
G. Subramanian, S. Palanichamy. Influence of fouling assemblage on the corrosion behaviour of mild steel in the coastal waters of the Gulf of Mannar, India. Journal of Marine Science and Application, 2013, 12(4): 500-509 DOI:10.1007/s11804-013-1222-x

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Annual Book of ASTM Standards, Section 3, 03.01 (1985a). ASTM International, West Conshohocken (PA), 152–175.
[2]

Annual Book of ASTM Standards, Section 3, 03.02(1985b). ASTM International, West Conshohocken (PA), 267–276.
[3]

Annual Book of ASTM Standards, Section 3, 03.02 (1995). ASTM International, West Conshohocken (PA), 12.
[4]

Baboian R. Corrosion tests and standards: pplication and interpretation, 2005, West Conshohocken (PA): ASTM International, 367
[5]

Brooks R.R., Presley B.J., Kaplan I.R. APDC-MIBK extraction system for the determination of trace elements in saline waters by atomic absorption. Talanta, 1967, 14: 806-816

[6]

Champion F.A. Corrosion testing procedures, 1952, London (UK): Chapman and Hall, 36-52
[7]

Chellam A. Growth of pearl oyster Pinctada fucata in the pearl culture farm at Veppalodai. Indian. J. Fish., 1978, 25: 77-83
[8]

Compton K.G. The unique properties of seawater as a corrosive medium. Corrosion, 1970, 26: 448-449

[9]

de Brito L.V., Coutinho R., Cavalcanti E.H., Benchimol M. The influence of macrofouling on the corrosion behaviour of API 5LX 65 carbon steel. Biofouling, 2007, 23: 193-201

[10]

Dexter S.C., Culberson C.H. Global variability of natural seawater. Mater. Perform., 1980, 19: 16-28
[11]

Eashwar M., Subramanian G., Chandrasekaran P. Marine fouling and corrosion studies in the coastal waters of Mandapam. India. Bull. Electrochem., 1990, 6: 699-702
[12]

Eashwar M., Maruthamuthu S., Manickam S.T. An assessment of preference for coupon positions by tropical marine fouling organisms. Biofouling, 1991, 3: 277-286

[13]

Ijsseling F.P. General guidelines for corrosion testing of materials for marine Applications. Brit. Corros. J., 1989, 24: 55-78

[14]

Koryakova M.D., Nikitin V.M., Zvyaginestev A.Y., Belogurova L.S. Effect of polluted harbour waters on fouling and biocorrosion of steel. Russ. J. Mar. Biol., 2002, 127-131
[15]

Kuffner I.B., Paul V.J. Effects of nitrate, phosphate and iron on the growth of macroalgae and benthic cyanobacteria from Cocos Lagoon, Guam. Mar.Ecol.Prog. Ser.222, 2001, 63-72
[16]

LaQue F.L. Uhlig H.H. Behaviour of metals and alloys in seawater. Corrosion handbook, 1949, New York (NY): John Wiley and Sons, 383-430
[17]

Little B.J., Jason S.L., Ray R.I. The influence of marine microfouling on the corrosion behaviour of passive materials and copper alloys. Report No.NRL/PP/7303-07-7139, 9. Naval Research Laboratory, Stennis Space Center (MS), 2008
[18]

Luo J.S. The influence of marine organisms upon corrosion of carbon steel. Proc. Corrosion 2001, Paper No. 01460. NACE International, Houston (TX), 2001
[19]

Maruthamuthu S., Eashwar M., Manickam S.T., Ambalavanan S., Venkatachari G., Balakrishnan K. Marine fouling on test panels and in-service structural steel in Tuticorin harbour. Indian J. Mar. Sci., 1990, 19: 68-70
[20]

Maruthamuthu S., Eashwar M., Manickam S.T., Ambalavanan S., Venkatachari G., Balakrishnan K. Corrosion and biofouling in Tuticorin Breakwater. Corrosion Prevention & Control, 1993, 2: 6-10
[21]

Melchers R.E. Effects of water pollution on the immersion corrosion of mild and low alloy steels. Corros. Sci., 2007, 49: 3149-3167

[22]

Metals Handbook, 9th edition (1987). ASM International, Metals Park (OH), 231–236.
[23]

Palanichamy S., Rajendran A. Heavy metal concentrations in seawater and sediments of Gulf of Mannar and Palk Bay. Indian J. Mar. Sci., 2000, 29: 116-119
[24]

Palanichamy S., Subramanian G., Eashwar M. Corrosion behaviour and biofouling characteristics of structural steel in the coastal waters of the Gulf of Mannar (Bay of Bengal), India. Biofouling, 2012, 28: 441-451

[25]

Palraj S., Venkatachari G. Corrosion and biofouling characteristics of mild steel in Mandapam waters. Materials Performance, 2006, 45: 46-50
[26]

Pipe A. Lewis J.R., Mercer A.D. North Sea fouling organisms and their potential effects on the corrosion of North Sea structures. Marine corrosion on offshore structures, 1981, London, UK: Society of Chemical Industry, 13
[27]

Ravindran K., Gopalakrishnan Pillai A. Proceedings of Sixth International Congress on Marine Corrosion and Fouling, 1984, Athens, Greece: National Technical University of Athens, 159-170
[28]

Schumacher M. Seawater corrosion handbook, 1979, ParkRidge, NJ: Noyes Data Corporation, 494
[29]

Southwell C.R., Bultman J.D., Hummer C.W. Influence of marine organisms on the life of structural steels in seawater. NRL Report No.7672, 23, 1974, Washington (DC): Naval Research Laboratory
[30]

Strickland J.D.H., Parsons T.R. A practical handbook of seawater analysis, 1972, Ottawa, Canada: Fisheries Research Board of Canada, 310
[31]

Subramanian G. Studies on the electrochemical behaviour of ferrous materials in natural seawater. PhD thesis, 1993, Madurai, India: Madurai Kamaraj University
[32]

Sutherland J.P. Costlow J.D. Life histories and the dynamics of fouling communities. The ecology of fouling communities, 1976, Annapolis, MD: United States Naval Institute Press, 137-153
[33]

Swami B.S., Udayakumar M. Seasonal influence on settlement, distribution and diversity of fouling organisms at Mumbai harbour. Indian J. Mar. Sci., 2010, 39: 57-67
[34]

Xiao J., Zhu R., Xu Y. Corrosion and corrosion control for offshore and marine construction. Proceedings of International conference, 1988, Xiamen, China: Pergamon Press, 677
[35]

Zayed A., Guedes Soares C., Garbatov Y., Wang G. Environmental factors affecting the time dependant corrosion wastage of marine structures. Proceedings of 11th International Congress of the International Maritime Association of the Mediterranean, 2005, London, UK: Taylor & Francis Group, 589-598
PDF

209

Accesses

0

Citation

Detail
Sections
Recommended

/