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Scientific Technical Review
2011, vol. 61, br. 2, str. 50-56
jezik rada: engleski
vrsta rada: neklasifikovan

Korozioni procesi, priroda i sastav produkata korozije na naoružanje od legura gvožđa
aInstitut Goša, Beograd
bCIK, Central Institute for Conservation, Belgrade

Projekat

Istraživanje i optimizacija tehnoloških i funkcionalnih performansi ventilacionog mlina termoelektrane Kostolac B (MPNTR - 34028)

Sažetak

U ovom radu razmotreni su korozioni procesi koji se odvijaju na različitim vrstama naoružanja i vojne opreme izrađenim od gvožđa, tokom perioda provedenog pod zemljom i nakon iskopavanja. Posebna pažnja je posvećena opisu prirode i sastava korozionih produkata prisutnih na površini eksponata od gvožđa, koji su obezbedili njihovo očuvanje hiljadama godina. Korozioni procesi, koji se odvijaju nakon iskopavanja mogu da izazovu ubrzano propadanje predmeta u relativno blagim uslovima. Ti procesi predstavljaju posebnu opasnost za naoružanje i vojnu opremu izrađenu od gvožđa i njima je posvećena velika pažnja u ovom radu.

Ključne reči

naoružanje; NVO (naoružanje i vojna oprema); gvožđe; korozija; korozioni produkti

Reference

Antony, H., Legrand, L., Marechal, L., Perrin, S., Dillmann, Ph., Chausse, A. (2005) Study of lepidocrocite .gamma.-FeOOH electrochemical reduction in neutral and slightly alkaline solutions at 25.degree.C. Electrochimica Acta, 51(4), 745-753
Askey, A., Lyon, S.B., Thompson, G.E., Johnson, J.B., Wood, G.C., Cooke, M., Sage, P. (1993) The corrosion of iron and zinc by atmospheric hydrogen chloride. Corrosion Science, 34(2), 233-47
Balasubramaniam, R. (2000) On the corrosion resistance of the Delhi iron pillar. Corrosion Science, 42(12), 2103-2129
Balasubramaniam, R., Kumar, R.A.V. (2000) Characterization of Delhi iron pillar rust by x-ray diffraction, Fourier transform infrared spectroscopy and Mossbauer spectroscopy. Corrosion Science, 42(12), 2085-2101
Bobić, B., Jegdić, B. (2005) Korozija zavarenih spojeva, Deo I - vidovi korozije zavarenih spojeva. Zavarivanje i zavarene konstrukcije, vol. 50, br. 1, str. 33-39
Bobić, B., Jegdić, B. (2005) Korozija zavarenih spojeva, Deo II - ugljenični i niskolegirani čelici. Zavarivanje i zavarene konstrukcije, vol. 50, br. 2, str. 111-115
Bobić, B., Jegdić, B. (2005) Piting korozija nerđajućih čelika u rastvorima hlorida. Scientific Technical Review, vol. 55, br. 3-4, str. 3-8
Davis, J. (2000) Corrosion, understanding the basic. Ohio: ASM
Dillmann, Ph., Mazaudier, F., Hoerle, S. (2004) Advances in understanding atmospheric corrosion of iron, I: Rust characterization of ancient ferrous artifacts exposed to indoor atmospheric corrosion. Corrosion Science, 46(6), 1401-1429
Dražić, D.M., Jegdić, B. (2004) Corrosion and stress corrosion cracking. u: Sedmak S., Radaković Z. [ur.] IFMASS8, From Fracture Mechanics to Structural Integrity Assessment, Belgrade, str. 255-276
Dražić, D.M., Jegdić, B.V. (2007) Naponska korozija. Integritet i vek konstrukcija, vol. 7, br. 2, str. 89-95
Gilberg, M.R., Seeley, N.J. (1981) The identity of compounds containing chloride ions in marine iron corrosion products: a critical review. Studies in Conservation, 26(2), 50-6
Graedel, T.E., Frankenthal, R.P. (1990) Corrosion mechanisms for iron and low-alloy steels exposed to the atmosphere. Journal of the Electrochemical Society, 137(8), 2385-94
Hoerle, S., Mazaudier, F., Dillmann, Ph., Santarini, G. (2004) Advances in understanding atmospheric corrosion of iron. Part 2. Mechanistic modelling of wet-dry cycles. Corrosion Science, 46(6), 1431-1465
Jegdić, B., Radenković, G. (2003) Fracture mechanics approach to Stress Corrosion Cracking (SCC). u: International Conference RaDMI (III), 19-23 September, Herceg Novi, str. 743-749
Jegdić, B., Drazić, D.M., Popić, J.P. (2008) Open circuit potentials of metallic chromium and austenitic 304 stainless steel in aqueous sulphuric acid solution and the influence of chloride ions on them
Jegdić, B., Dražić, D.M., Popić, J.P., Radmilović, V. (2007) Uticaj strukture metalnog hroma na njegovo elektrohemijsko ponašanje. Journal of the Serbian Chemical Society, vol. 72, br. 6, str. 563-578
Jegdić, B. (2003) Ponašanje naponsko-korozione prsline u konstrukciji od aluminijumske legure visoke čvrstoće. Scientific Technical Review, vol. 53, br. 4, str. 19-24
Jegdić, B.V., Alil, A.B., Milutinović, Z.R., Odanović, Z.D., Gligorijević, B.R., Katavić, B.T. (2011) Primena elektrohemijskih metoda za ispitivanje interkristalne korozije zavarenog spoja austenitnog nerđajućeg čelika 19Cr-9Ni. Hemijska industrija, vol. 65, br. 2, str. 179-186
Kamimura, T., Hara, S., Miyuki, H., Yamashita, M., Uchida, H. (2006) Composition and protective ability of rust layer formed on weathering steel exposed to various environments. Corrosion Science, 48(9), 2799-2812
Kergourlay, F., Neff, D., Guilminot, E., Remazeilles, C., Reguer, S., Refait, P., Mirambet, F., Foy, E., Dillmann, P. (2010) Effect of Dechlorination in NaOH of Iron Archaeological Artefacts Immersed in Sea Water. u: Eggert G., Schmutzler B. [ur.] Archaeological Iron Conservation Colloquium, June, Stuttgart, Session 4, 24-26
Labbe, J.P., Ledion, J., Hui, F. (2008) Infrared spectrometry for solid phase analysis: Corrosion rusts. Corrosion Science, 50(5), 1228-1234
Landolt, D. (2007) Corrosion and surface chemistry of metals. Lausanne, str. 119-179
Marković, R., Friedrich, B., Stevanović, J., Jegdić, B. (2009) Electrochemical behavior of copper with non-standard impurities content. Journal of Engineering annals of Faculty of Engineering Hunedoara, VII, str. 47-50
Misawa, T., Asami, K., Hashimoto, K., Shimodaira, S. (1974) Mechanism of atmospheric rusting and the protective amorphous rust on low alloy steel. Corrosion Science, 14(4), 279-89
Misawa, T., Kyuno, T., Suetaka, W., Shimodaira, S. (1971) The mechanism of atmospheric rusting and the effect of cu and p on the Rust formation of low alloy steels. Corrosion Science, 2 str. 35-48
Monnier, J., Neff, D., Reguer, S., Dillmann, P., Bellot-Gurlet, L., Leroy, E., Foy, E., Legrand, L., Guillot, I. (2010) A corrosion study of the ferrous medieval reinforcement of the Amiens cathedral. Phase characterization and localization by various microprobes techniques. Corrosion Science, 52(3), 695-710
Polić, R.S., Ristić, S., Jegdić, B., Nikolić, Z. (2010) Metodološki i tehnički aspekti primene novih tehnika u zaštiti kulturne baštine. Beograd: Institut 'Goša'
Reguer, S., Mirambet, F., Dooryhee, E., Hodeau, J.L., Dillmann, P., Lagarde, P. (2009) Structural evidence for the desalination of akaganeite in the preservation of iron archaeological objects, using synchrotron X-ray powder diffraction and absorption spectroscopy. Corrosion Science, 51(12), 2795-2802
Réguer, S., Dillmann, P., Mirambet, F. (2007) Buried iron archaeological artefacts: Corrosion mechanisms related to the presence of Cl-containing phases. Corrosion Science, 49(6): 2726-2744
Selwyn, L. (2006) Corrosion of metal artefacts in buried environments. u: ASM Handbook, Corrosion: Environments and Industries, Ohio, str. 306-322, Volume 13C
Selwyn, L. (2004) Overview of archaeological iron: The corrosion problem, key factors affecting treatment, and gaps in current knowledge. u: Proceedings of Metal National Museum of Australia ACT October 2004, Canberra
Selwyn, L. (2004) Metals and corrosion: A handbook for the conservation professional. Ottawa: Canadian Conservation Institute
Selwyn, L.S., Sirois, P.J., Argyropoulos, V. (1999) The corrosion of excavated archaeological iron with details on weeping and akaganeite. Studies in Conservation, 44(4), 217-232
Stahl, K., Nielsen, K., Jiang, J., Lebech, B., Hanson, J.C., Norby, P., van Lanschot, J. (2003) On the akaganeite crystal structure, phase transformations and possible role in post-excavational corrosion of iron artifacts. Corrosion Science, 45(11), 2563-2575
Stojanović, M., Bobić, B., Jegdić, B. (2001) Opšta i kontaktna korozija Zn-Al legura u uslovima neutralne slane magle. Zaštita materijala, 42(2): 1-5
Tamura, H. (2008) The role of rusts in corrosion and corrosion protection of iron and steel. Corrosion Science, 50(7), 1872-1883
Thickett, D., Lambarth, S., Wyeth, P. (2008) Determining the stability and durability of archaeological materials. u: International Conference on NDT of Art (9th), Jerusalem, Israel, 25-30 May, str. 1-10
Turgoose, S. (1982) Post-excavation changes in iron antiquities. Studies in Conservation, 27(3), 97-101
Turgoose, S. (1985) The corrosion of archaeological iron during burial and treatment. Studies in Conservation, 30(1), 13-18
Walker, R. (2001) Instability of iron sulfides on recently excavated artifacts. Studies in Conservation, 46(2), 141-152
Watkinson, D., Lewis, M. (2005) Desiccated storage of chloride-contaminated archaeological iron objects. u: Studies in Conservation, 50 str. 241-252
Watkinson, D. (1983) Degree of mineralization: its significance for the stability and treatment of excavated ironwork. Studies in Conservation, 28(2), 85-90
Žuk, N. (1976) Kurs teorii korroziii i zašćiti metalov. Moskva: Metallurgija, str. 149-180