Sinteza dva supramolekularna koordinaciona polimera i elektrohemijska procena njihovog učinka inhibicije korozije na koroziju ugljeničnog čelika u kiseloj sredini
DOI:
https://doi.org/10.5937/zasmat2104316FKljučne reči:
supramolekularni koordinacioni polimeri, kisela korozija, ugljenični čelik, Henrijeva izoterma, EISApstrakt
Efekat SCPs-[CuII(en)2] [CuI (CN)2]2. H2O (SCP1) i {[H2DAB] [Cu4(CN)6].2H2O} (SCP2) kao inhibitori korozije za ugljenični čelik (CS) proučavani su u 1,0 M rastvoru HCl. Kako se doza sintetizovanog inhibitora povećava, produktivnost inhibicije (%n) raste dostižu i 90,3% i 89,9% pri dozi od 21x10-6M za SCP2 i SCP1, respektivno. Ovaj rezultat je dokazan gubitkom mase (ML) ispitivanim na tri različitih temperatura 25-35-450C, dok su potenciodinamička polarizacija (PP), spektroskopija elektrohemijske impedanse (EIS) i tehnika elektrohemijske modulacije frekvencije (EFM) testirani na 25°C. Sintetizovani inhibitori adsorbovani na površini CS fizički dozvoljavaju i Henrijevu izotermu. Rezultati su pokazali da su sintetisani inhibitori odlični i da je njihov (%n) značajno povećan povećanjem doze i smanjen povećanjem temperature. Polarizacione krive su pokazale da sintetisani inhibitori deluju kao mešoviti tip. Termodinamički parametri su izračunati i diskutovani. Zaštita je potvrđena stvaranjem tankog filma inhibitora taloženog na površini CS.Reference
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https://doi.org/10.5937/ZasMat1801128F
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https://doi.org/10.1016/S1452-3981(23)15920-7
Al-Sabbagh, A.M., Osman, M.M., Omar, A.M.A., El-Gamal, I.M. (1996) Organic corrosion inhibitors for steel pipelines in oilfields.Anti-Corrosion Methods and Materials, 43(6), 11-16
https://doi.org/10.1108/eb007405
Amin, M.A., Abd, E.S.S., El-Naggar, M.M., Abd, E.H.T. (2009) Adsorption, and corrosion inhibitive properties of some tripodal pyrazolic compounds on mild steel in hydrochloric acid systems.J Mater. Sci, 44, 6258-6272
https://doi.org/10.1007/s10853-009-3856-2
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https://doi.org/10.5006/1.3290331
di Y., Zongxue, Y., Legang, C., Kunyao, C. (2019) Enhancement of the anti-corrosion performance of composite epoxy coatings in presence of bta loaded copper-based metal-organic frameworks.Int. J. Electrochem. Sci, 14, 4240-4253
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Eddy, N.O., Ebenso, E.E. (2010) Adsorption and quantum chemical studies on cloxacillin and halides for the corrosion of mild steel in acidic media.Int. J. Electrochem. Sci, 5, 731-750
https://doi.org/10.1016/S1452-3981(23)15319-3
Elabbasy, H.M., Zidan, S.M., El-Aziz, A.F.S. (2019) Inhibitive behavior of Ambrosia Maritima extract as an eco-friendly corrosion inhibitor for carbon steel in 1M HCI.Zaštita materijala, vol. 60, br. 2, str. 129-146
https://doi.org/10.5937/zasmat1902129E
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https://doi.org/10.1007/s10904-011-9467-9
Etaiw, S.el-Din H.E.H., Badr, el-Din A.S. (2011) Supramolecular design of coordination polymers based on silver(I) azide and nitrogen donor ligands.Journal of Inorganic and Organometallic Polymers and Materials, 21(1), 1-8
https://doi.org/10.1007/s10904-010-9427-9
Etaiw, S.H.E.H., Abdou, S.N., Badr, el-Din A.S. (2015) Structure and spectral characterization of coordination polymers constructed by Cu CN and aliphatic diamines.Journal of Inorganic and Organometallic Polymers and Materials, 25(6), 1394-1406
https://doi.org/10.1007/s10904-015-0252-z
Fouda, A.S., Abdallah, M., el-Badrawy Z. (2011) Some hydrazone derivatives as corrosion inhibitors for iron in 3.5% H3PO4 solution.Afri. J. Pure Appl. Chem, 5(8), 24-36
Fouda, A.S., Abdel, A.M., Mohamed, S.A., El-Hossiany, A., El-Desouky, E. (2019) Corrosion inhibition and adsorption behavior of nerium oleander extract on carbon steel in hydrochloric acid solution.Int. J. Electrochem. Sci, 14, 3932-3948
https://doi.org/10.20964/2019.04.44
Fouda, A.S., Mostafa, H.A., Elewady, G.Y., El-Hashemy, M.A. (2008) Low molecular weight straight - chain diamines as corrosion inhibitors for ss in HCl solution.Chemical Engineering Communications, 195(8), 934-947
https://doi.org/10.1080/00986440801905148
Fouda, A.S., Abd, E.S.A., El-Hossiany, A., Ibrahim, A. (2019) Corrosion protection of stainless steel 201 in acidic media using novel hydrazine derivatives as corrosion inhibitors.Int. J. Electrochem. Sci, 14, 2187-2207
https://doi.org/10.20964/2019.03.15
Fouda, A.S., Shalabi, K., el-Hossiany A. (2016) Moxifloxacin antibiotic as green corrosion inhibitor for carbon steel in 1 M HCl.Journal of Bioand Tribo-Corrosion, 2(3), 18-26
https://doi.org/10.1007/s40735-016-0048-x
Fouda, A.S., Ibrahim, H., Rashwan, S., El-Hossiany, A., Ahmed, R.M. (2018) Expired drug (pantoprazole sodium) as a corrosion inhibitor for high carbon steel in hydrochloric acid solution.Int. J. Electrochem. Sci, 13, 6327-6346
https://doi.org/10.20964/2018.07.33
Fouda, A.E.S.S., Etaiw, S.E.H.E.H., El-Bendary, M.M., Maher, M.M. (2016) Metal-organic frameworks based on silver (I) and nitrogen donors as new corrosion inhibitors for copper in HCl solution.Journal of Molecular Liquids, 213, 228-234
https://doi.org/10.1016/j.molliq.2015.11.001
Fouda, E.A.S., El-Hossiany, A.A., Ramadan, H.M. (2017) Calotropis Procera plant extract as green corrosion inhibitor for 304 stainless steel in hydrochloric acid solution.Zaštita materijala, vol. 58, br. 4, str. 541-555
https://doi.org/10.5937/ZasMat1704541F
Fouda, E.A.S., El-Khateeb, A.Y., Elbahrawi, N.M. (2017) Cupressus sempervirens extract as green inhibitor for corrosion of carbon steel in hydrochloric acid solutions.Zaštita materijala, vol. 58, br. 2, str. 131-143
https://doi.org/10.5937/ZasMat1702131F
Fouda, E.A.S., El-Maksoud, A.S.A., el-Salam Abd, S.A. (2017) Mitigation of corrosion of carbon steel in acid medium using some antipyrine derivatives.Zaštita materijala, vol. 58, br. 1, str. 5-17
https://doi.org/10.5937/ZasMat1701005F
Frignani, A., Grassi, V., Zanotto, F., Zucchi, F. (2012) Inhibition of AZ31 Mg alloy corrosion by anionic surfactants.Corrosion Science, 63, 29-39
https://doi.org/10.1016/j.corsci.2012.05.012
Garcia-Arriaga, V., Alvarez-Ramirez, J., Amaya, M., Sosa, E. (2010) H2S and O2 influence on the corrosion of carbon steel immersed in a solution containing 3 M diethanolamine.Corrosion Science, 52(7), 2268-2279
https://doi.org/10.1016/j.corsci.2010.03.016
Grgur, B.N. (2020) Corrosion of the stainless steel 316Ti in 10% hydrochloric and sulfuric acid.Zaštita materijala, vol. 61, br. 4, str. 339-345
https://doi.org/10.5937/zasmat2004339G
Jayaperumal, D. (2010) Effects of alcohol-based inhibitors on corrosion of mild steel in hydrochloric acid.Materials Chemistry and Physics, 119(3), 478-484
https://doi.org/10.1016/j.matchemphys.2009.09.028
Jones, D.A. (1983) Principles and prevention of corrosion. Upper Saddle River, NJ: Prentice Hall, second ed
Kendig, M., Jeanjaquet, S. (2002) Cr(VI) and Ce(III) inhibition of oxygen reduction on copper.Journal of The Electrochemical Society, 149(2), B47-B51
https://doi.org/10.1149/1.1430717
Khaled, K.F. (2009) Evaluation of electrochemical frequency modulation as a new technique for monitoring corrosion and corrosion inhibition of carbon steel in perchloric acid using hydrazine carbodithioic acid derivatives.Journal of Applied Electrochemistry, 39(3), 429-438
https://doi.org/10.1007/s10800-008-9688-y
Khaled, K.F. (2008) Molecular simulation, quantum chemical calculations and electrochemical studies for inhibition of mild steel by triazoles.Electrochimica Acta, 53(9), 3484-3492
https://doi.org/10.1016/j.electacta.2007.12.030
Khaled, K.F. (2008) New synthesized guanidine derivative as a green corrosion inhibitor for mild steel.Int. J. Electrochem. Sci, 3, 462-475
https://doi.org/10.1016/S1452-3981(23)15466-6
Khamis, E., Bellucci, F., Latanision, R.M., El-Ashry, E.S.H. (1991) Acid corrosion inhibition of nickel by 2-(Triphenosphoranylidene) succinic anhydride.Corrosion, 47(9), 677-686
https://doi.org/10.5006/1.3585307
Kowsari, E., Payami, M., Amini, R., Ramezanzadeh, B., Javanbakht, M. (2014) Task-specific ionic liquid as a new green inhibitor of mild steel corrosion.Applied Surface Science, 289, 478-486
https://doi.org/10.1016/j.apsusc.2013.11.017
Kruger, J. (1986) Corrosion of metal: An overview. in: Bever M.B. [ed.] Encyclopedia of materials science and engineering, vol 2
Kumaraguru, S., Pavulraj, R., Mohan, S. (2017) Influence of Co, Ni, Cu-based MOFs on the corrosion protection of mild steel.Int. J. Surf. Eng. Coat, 95(3), 131-136
https://doi.org/10.1080/00202967.2017.1283898
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