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The Role of βFeOOH in the Corrosion of Archaeological Iron

Published online by Cambridge University Press:  01 February 2011

David Watkinson  and
Mark R. T. Lewis
David Watkinson
Affiliation:
Conservation Section, HISAR, Cardiff University, Cardiff, CF10 3EU, UK [email protected]
Mark R. T. Lewis
Affiliation:
Roman Legionary Museum, National Museums of Wales, Caerleon, UK [email protected]
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Abstract

The chloride bearing corrosion product akaganéite (βFeOOH) can form during postexcavation corrosion of chloride infested archaeological iron and is able to corrode iron in contact with it. Its action on iron is examined using βFeOOH synthesized from ferrous chloride and iron powder. Using weight measurements the hygroscopicity of βFeOOH is established. The influence of relative humidity on the corrosion of iron powder mixed with βFeOOH is examined by dynamic mass change within a climatic chamber. At 20°C and 12% relative humidity, iron in contact with βFeOOH did not corrode. At 15% relative humidity slight iron corrosion was detected after 160 hours, but at 35% relative humidity corrosion occurred after a few hours. Surface adsorbed chloride was removed from βFeOOH by aqueous washing and this reduced its hygroscopicity. The reported metastability of βFeOOH was examined via XRD of a 23 year old sample, which was found to be still entirely composed of βFeOOH. These results provide better understanding of βFeOOH corrosion of iron, corrosion control of chloride infested iron using dry storage and the effect of aqueous washing on archaeological iron.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 852 , 2004 , OO1.6
Copyright
Copyright © Materials Research Society 2005

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References

REFERENCES

1. Neff, D., Reuger, S., Bellot-Gurlet, L., Dillmann, P. and Bertholon, R., J. of Raman Spec. 35 739745, 2004.Google Scholar
2. Watkinson, D., Stud. in Conservation 28, 8590, 1983.Google Scholar
3. Turgoose, S., Conservation of Iron, ed. Clark, R. and Blackshaw, S., National Maritime Museum, Greenwich, London, 17, 1982.Google Scholar
4. Turgoose, S., Stud. in Conservation 27, 97101 1982.Google Scholar
5. Zucci, F., Morigi, G. and Bertolasi, V., Corrosion and Metal Artifacts, ed. Brown, B.F. NBS Special publication 479, Washington D.C., l039, l977.Google Scholar
6. Kiyama, M. and Takada, T., Bull. Chem. Soc. Japan, 45, 19231924, 1972.Google Scholar
7. Taylor, R. M., Clays and Clay Minerals 32, 175180, 1984.Google Scholar
8. Selwyn, L. S., Sirois, P.J. and Argyropoulous, V., Stud. in Conservation 44, 217232. 1999.Google Scholar
9. Knight, B., Conservator, 14, 3743, 1990.Google Scholar
10. Watkinson, D., Archaeological Conservation and its Consequences, eds. Roy, A. and Smith, P., IIC London, 208212, 1996.Google Scholar
11. North, N. A. and Pearson, C., Stud. in Conservation, 23, 174–86, 1978.Google Scholar
12. Mackay, A. L., Mineralogical Magazine, 33, 270280, 1962.Google Scholar
13. Childs, C. W., Goodman, B. A., Paterson, E. and Woodhams, F.W.D., Aust. J. Chem. 33, 1526, 1980 Google Scholar
14. Atkinson, R. J., Posner, A. M. and Quirk, J. P., Clays and Clay Minerals, 25, 4956, 1977 Google Scholar
15. Ishikawa, T. and Inouye, K, Bull. Chem. Soc. Japan, 48, 15801584, 1975.Google Scholar
16. Dousma, J. V., Den Hoven, T. J. and De Bruyn, P. L, J. Inorg. Nucl. Chem. 40, 10891093, 1978.Google Scholar
17. Keller, P. 1970, Neues Jahrbuch fur Mineralogie Abhandlungen, 113, 2949 Google Scholar
18. Buckwald, V. F. and Clark, R., American Mineralogist 74, 656676, 1989.Google Scholar
19. Kaneko, K., Serizawa, M., Ishikawa, T. and Inouye, K., Bull Chem. Soc. Japan 48, 17641769, 1975.Google Scholar
20. Kaneko, K. and Inouye, K., Bull. Chem. Soc. Japan. 52, 315320, 1979.Google Scholar
21. Johnston, J. H. and Logan, N. E., J. Chem. Soc. Dalton Trans., 1316, 1979.Google Scholar
22. Stahl, K., Nielsen, K., Norby, J.C., Jiang, P. and van Lanschot, J, Jubilee Symposium, Det Kongelige Danske Kunstakedemi (Copenhagen) 157160, 1998.Google Scholar
23. Gilberg, M.R. and Seeley, N.J., Stud. in Conservation 26, 5056, 1981.Google Scholar
24. Scott, D.A. and Seeley, N.J., Stud. in Conservation 32 7376.Google Scholar
25. Stahl, K., Nielsen, K., Jiang, J., Lebech, B., Hansen, J.C., Norby, P. and van Lanschot, J, Corrosion Science 45, 25632575, 2003.Google Scholar