A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion
Emine Kutlu, Muhammed Asim AliTangible cultural heritage are invaluable assets inherited from our ancestors, encompassing transformative skills, culture, tradition, knowledge and practice, passed down by generations to generation. It is said to say that, these assets are on the brink of deterioration, and vandalism from both pernicious natural forces and relentless time laps. There is an urgent need of preserving and transfer of these treasures to the future generations. The main objective of our study is to provide basic knowledge for the conservation of cultural artifacts. With this investigation, we lay stress on the significance of cultural artifacts, delve the factors influencing corrosion, talk about cleaning methods and stressing the use of inhibitor or protective coating to shield them from further decay. In this study emphasizes the urgent need of development of new methodologies and strategies to safeguard these assets from ruinous events. In addition, it also present ongoing efforts applied in transmission and preservation of these metallic artifacts in their original form.
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Referanslar
- Albini, M., Letardi, P., Mathys, L., Brambilla, L., Schröter, J., Junier, P., Joseph, E. (2018). Comparison of a bio-based corrosion inhibitor versus benzotriazole on corroded copper surfaces. Corrosion science, 143, 84-92. google scholar
- Al-Shamari, A. R., Prakash, S., Al-Mithin, A. W., Biedermann, A. J., Islam, M., Mathew, A. (2013). Some empirical observations about bacteria proliferation and corrosion damage morphology in Kuwait oilfield waters. In nace corrosion, 2748. google scholar
- Artesani, A., Di Turo, F., Zucchelli, M., Traviglia, A. (2020). Recent advances in protective coatings for cultural heritage–an overview. Coatings, 10(3), 217. google scholar
- Ashley-Smith, J. (2013). Risk assessment for object conservation, New yourk: Taylor & Francis Aufray, M., Josse, C., Balbo, A., Monticelli, C., Švara Fabjan, E., Škrlep, L., Kosec, T., and Kete, M. (2019). Practical adhesion measurements of protective coatings on bronze by three-point bending test. Journal of Coatings Technology and Research, 16, 1465-1477. google scholar
- Baglioni, M., Alterini, M., Chelazzi, D., Giorgi, R., Baglioni, P. (2019). Removing polymeric coatings with nanostructured fluids: Influence of substrate, nature of the film, and application methodology. Frontiers in Materials, 6, 311. google scholar
- Baglioni, M., Guaragnone, T., Mastrangelo, R., Sekine, F. H., Ogura, T., Baglioni, P. (2020). Nonionic surfactants for the cleaning of works of art: insights on acrylic polymer films dewetting and artificial soil removal. ACS applied materials & interfaces, 12(23), 26704-26716. google scholar
- Baglioni, M., Montis, C., Brandi, F., Guaragnone, T., Meazzini, I., Baglioni, P., Berti, D. (2017). Dewetting acrylic polymer films with water/propylene carbonate/surfactant mixtures–implications for cultural heritage conservation. Physical Chemistry Chemical Physics, 19(35), 23723-23732. google scholar
- Baglioni, M., Montis, C., Chelazzi, D., Giorgi, R., Berti, D., Baglioni, P. (2018). Polymer film dewetting by water/surfactant/good‐solvent mixtures: a mechanistic insight and its implications for the conservation of cultural heritage. Angewandte Chemie, 130(25), 7477-7481. google scholar
- Baglioni, M., Poggi, G., Chelazzi, D., Baglioni, P. (2021). Advanced materials in cultural heritage conservation. Molecules, 26(13), 3967. google scholar
- Baglioni, M., Poggi, G., Ciolli, G., Fratini, E., Giorgi, R., Baglioni, P. (2018). A Triton X-100-based microemulsion for the removal of hydrophobic materials from works of art: SAXS characterization and application. Materials, 11(7), 1144. google scholar
- Barouni, K., Kassale, A., Albourine, A., Jbara, O., Hammouti, B., Bazzi, L. (2014). Amino acids as corrosion inhibitors for copper in nitric acid medium: Experimental and theoretical study. J. Mater. Environ. Sci, 5(2), 456-463. google scholar
- Bartoletti, A., Maor, T., Chelazzi, D., Bonelli, N., Baglioni, P., Angelova, L. V., Ormsby, B. A. (2020). Facilitating the conservation treatment of Eva Hesse’s Addendum through practice-based research, including a comparative evaluation of novel cleaning systems. Heritage Science, 8, 1-27. google scholar
- Behpour, M., Ghoreishi, S. M., Khayatkashani, M., Soltani, N. J. M. C. (2012). Green approach to corrosion inhibition of mild steel in two acidic solutions by the extract of Punica granatum peel and main constituents. Materials Chemistry and Physics, 131(3), 621-633. google scholar
- Bernard, M. C. and S. Joiret (2009). Understanding corrosion of ancient metals for the conservation of cultural heritage. Electrochimica Acta, 54(22), 5199-5205. google scholar
- Bertholon, R. (2007). Archaeological metal artefacts and conservation issues: long-term corrosion studies. In corrosion of metallic heritage artefacts, 31-40. google scholar
- Bonelli, N., Montis, C., Mirabile, A., Berti, D., Baglioni, P. (2018). Restoration of paper artworks with microemulsions confined in hydrogels for safe and efficient removal of adhesive tapes. Proceedings of the National Academy of Sciences, 115(23): 5932-5937. google scholar
- Burt, V., Steve L., Bonnie R. S. (2015). Corrosion in the petrochemical industry. Materials Park: ASM International, 75-81 google scholar
- Caple, C. (2008). Preservation in situ: the future for archaeological conservators? Studies in Conservation, 53(sup1), 214-217. google scholar
- Casoli, A., Di Diego, Z., Isca, C. (2014). Cleaning painted surfaces: evaluation of leaching phenomenon induced by solvents applied for the removal of gel residues. Environmental Science and Pollution Research, 21, 13252-13263. google scholar
- Davison, S. (1984). A review of adhesives and consolidants used on glass antiquities. Studies in Conservation, 29(sup1), 191-194. google scholar
- Declich, F., Pennaccini, C. (2014). Cooperating for Cultural Heritage Conservation. JUNCO| Journal of UNiversities and international development COoperation, (1). google scholar
- El-Haddad, M. N. (2013). Chitosan as a green inhibitor for copper corrosion in acidic medium. International journal of biological macromolecules, 55, 142-149. google scholar
- Eppich, R. and J. L. G. Grinda (2019). Sustainable financial management of tangible cultural heritage sites. Journal of Cultural Heritage Management and Sustainable Development, 9(3), 282-299. google scholar
- Faraldi, F., Cortese, B., Caschera, D., Di Carlo, G., Riccucci, C., De Caro, T., Ingo, G. M. (2017). Smart conservation methodology for the preservation of copper-based objects against the hazardous corrosion. Thin Solid Films, 622, 130-135. google scholar
- Figueira, R. B., Silva, C. J., Pereira, E. V. (2015). Organic–inorganic hybrid sol–gel coatings for metal corrosion protection: a review of recent progress. Journal of Coatings Technology and Research, 12, 1-35. google scholar
- Gençer, G. M. (2021). The Importance of Corrosion Protection of Metal-Containing Historical Artifacts and Common Methods Used for Preservation. International Journal of Environment and Geoinformatics, 8(4), 514-520. google scholar
- Hollander, O. and R. C. May (1985). The chemistry of azole copper corrosion inhibitors in cooling waters. Corrosion 41(1), 39-45. google scholar
- Högberg, A. and C. Holtorf (2021). Cultural heritage and the future, Routledge. google scholar
- Ismail, K. M. (2007). Evaluation of cysteine as environmentally friendly corrosion inhibitor for copper in neutral and acidic chloride solutions. Electrochimica Acta, 52(28), 7811-7819. google scholar
- Khan, P. F., Shanthi, V., Babu, R. K., Muralidharan, S., Barik, R. C. (2015). Effect of benzotriazole on corrosion inhibition of copper under flow conditions. Journal of Environmental Chemical Engineering 3(1), 10-19. google scholar
- Koob, S. (2009). Paraloid B-72®: 25 years of use as a consolidant and adhesive for ceramics and glass. Holding it All Together Ancient and Modern Approaches to Joining, Repairs and Consolidation, 113-119. google scholar
- Masi, G., Josse, C., Esvan, J., Chiavari, C., Bernardi, E., Martini, C., Bignozi, C.M., Robbiola, L. (2019). Evaluation of the protectiveness of an organosilane coating on patinated Cu-Si-Mn bronze for contemporary art. Progress in Organic Coatings, 127, 286-299. google scholar
- Mastrangelo, R., Chelazzi, D., Poggi, G., Fratini, E., Pensabene Buemi, L., Petruzzellis, M. L., Baglioni, P. (2020). Twin-chain polymer hydrogels based on poly (vinyl alcohol) as new advanced tool for the cleaning of modern and contemporary art. Proceedings of the National Academy of Sciences, 117(13), 7011-7020. google scholar
- Meng, B., Mueller, U., Garcia, O., Malaga, K. (2014). Performance of a new anti-graffiti agent used for immovable cultural heritage objects. International Journal of Architectural Heritage, 8(6), 820-834. google scholar
- Moffett, D. L. (1996). Wax coatings on ethnographic metal objects: justifications for allowing a tradition to wane. Journal of the american institute for conservation, 35(1), 1-7. google scholar
- Muresan, L., Oniciu, L., Froment, M., & Maurin, G. (1992). Inhibition of lead electrocrystallization by organic additives. Electrochimica acta, 37(12), 2249-2254. google scholar
- Pickard, R. (2001). Policy and law in heritage conservation . Londonand New york, Taylor & Francis. Protection, E. C. (2018). Hybrid Sol-Gel Coatings. Production, Properties, and Applications of High Temperature Coatings, 334. google scholar
- Robinson, W. S. (1982). The corrosion and preservation of ancient metals from marine sites. International Journal of Nautical Archaeology, 11(3): 221-231. google scholar
- Sadat‐Shojai, M., Ershad‐Langroudi, A. (2009). Polymeric coatings for protection of historic monuments: Opportunities and challenges. Journal of Applied Polymer Science, 112(4), 2535-2551. google scholar
- Salzano de Luna, M., Buonocore, G. G., Giuliani, C., Messina, E., Di Carlo, G., Lavorgna, M., Ambrosio, L., Ingo, G. M. (2018). Long‐lasting efficacy of coatings for bronze artwork conservation: the key role of layered double hydroxide nanocarriers in protecting corrosion inhibitors from photodegradation. Angewandte Chemie International Edition, 57(25), 7380-7384. google scholar
- Sesana, E., Gagnon, A. S., Ciantelli, C., Cassar, J., Hughes, J. J. (2021). Climate change impacts on cultural heritage: A literature review. Wiley Interdisciplinary Reviews: Climate Change, 12(4), e710. google scholar
- Sloggett, R. (2022). Conservation skills. Journal of the Institute of Conservation, 45(3), 157-172. google scholar
- Stulik, D. (2004). Solvent gels for the cleaning of works of art: the residue question. Getty Publications. google scholar
- Telegdi, J., Shaban, A., Trif, L. (2017). Microbiologically influenced corrosion (MIC). Trends in oil and gas corrosion research and technologies, 191-214. google scholar
- Wang, T., Wang, J., Wu, Y. (2015). The inhibition effect and mechanism of l-cysteine on the corrosion of bronze covered with a CuCl patina. Corrosion Science, 97, 89-99. google scholar
- Watkinson, D. (2010). 4.43 Preservation of Metallic Cultural Heritage. Corrosion Management, 3307-3340. google scholar
- Winther, T., Bannerman, J., Skogstad, H., Johansson, M. K., Jacobson, K., Samuelsson, J. (2015). Adhesives for adhering polystyrene plastic and their long-term effect. Studies in Conservation, 60(2), 107-120. google scholar
- Wolbers, R. (2000). Cleaning painted surfaces: aqueous methods. google scholar
- Yarime, M., Trencher, G., Mino, T., Scholz, R. W., Olsson, L., Ness, B., Frantzeskaki, N., Rotmans, J. (2012). Establishing sustainability science in higher education institutions: towards an integration of academic development, institutionalization, and stakeholder collaborations. Sustainability Science, 7, 101-113. google scholar
- Yadav, S., Raman, A. P., Singh, M. B., Massey, I., Singh, P., Verma, C., AlFantazi, A. (2024). Green nanoparticles for advanced corrosion protection: Current perspectives and future prospects. Applied Surface Science Advances, 21, 100605. google scholar
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APA
Kutlu, E., & Ali, M.A. (2024). A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion. International Journal of Environment and Geoinformatics, 11(3), 24-29. https://doi.org/10.30897/ijegeo.1478498
AMA
Kutlu E, Ali M A. A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion. International Journal of Environment and Geoinformatics. 2024;11(3):24-29. https://doi.org/10.30897/ijegeo.1478498
ABNT
Kutlu, E.; Ali, M.A. A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion. International Journal of Environment and Geoinformatics, [Publisher Location], v. 11, n. 3, p. 24-29, 2024.
Chicago: Author-Date Style
Kutlu, Emine, and Muhammed Asim Ali. 2024. “A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion.” International Journal of Environment and Geoinformatics 11, no. 3: 24-29. https://doi.org/10.30897/ijegeo.1478498
Chicago: Humanities Style
Kutlu, Emine, and Muhammed Asim Ali. “A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion.” International Journal of Environment and Geoinformatics 11, no. 3 (Dec. 2024): 24-29. https://doi.org/10.30897/ijegeo.1478498
Harvard: Australian Style
Kutlu, E & Ali, MA 2024, 'A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion', International Journal of Environment and Geoinformatics, vol. 11, no. 3, pp. 24-29, viewed 23 Dec. 2024, https://doi.org/10.30897/ijegeo.1478498
Harvard: Author-Date Style
Kutlu, E. and Ali, M.A. (2024) ‘A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion’, International Journal of Environment and Geoinformatics, 11(3), pp. 24-29. https://doi.org/10.30897/ijegeo.1478498 (23 Dec. 2024).
MLA
Kutlu, Emine, and Muhammed Asim Ali. “A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion.” International Journal of Environment and Geoinformatics, vol. 11, no. 3, 2024, pp. 24-29. [Database Container], https://doi.org/10.30897/ijegeo.1478498
Vancouver
Kutlu E, Ali MA. A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion. International Journal of Environment and Geoinformatics [Internet]. 23 Dec. 2024 [cited 23 Dec. 2024];11(3):24-29. Available from: https://doi.org/10.30897/ijegeo.1478498 doi: 10.30897/ijegeo.1478498
ISNAD
Kutlu, Emine - Ali, MuhammedAsim. “A Review on Conservational Methodologies of Tangible Cultural Artifacts from Environmental Corrosion”. International Journal of Environment and Geoinformatics 11/3 (Dec. 2024): 24-29. https://doi.org/10.30897/ijegeo.1478498