Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:9
  • preuzimanja u poslednjih 30 dana:8

Sadržaj

članak: 2 od 9  
Back povratak na rezultate
2022, vol. 63, br. 1, str. 15-22
Detektovanje podvodnih metalnih objekata pomoću veštačke inteligencije i zaštita od korozije predmeta od mekog čelika korišćenih u podvodnoj studiji - studija slučaja - Deo B - Zaštita od korozije predmeta od mekog čelika korišćenih u podvodnoj studiji
aAMET University, Department of EEE, Chennai, India
bSt. Antony's College of Arts and Sciences for Women Thamaraipady, Department of Chemistry, Tamil Nadu, India
cSt. Antony's College of Arts and Sciences for Women Thamaraipady, Department of Chemistry, Tamil Nadu, India + Pondicherry University, Puducherry, India
dUniverzitet u Beogradu, Poljoprivredni fakultet
ePondicherry University, Puducherry, India

e-adresardorothyraj.dgl@gmail.com
Ključne reči: predmeti od mekog čelika; roboti; premazi; azijska zaštitna crvena boja; polarizaciona studija; spektri impedanse naizmenične struje; morska voda
Sažetak
Ukopani metalni predmeti u morskoj vodi mogu proći koroziju zbog korozivnih jona, poput hloridnih jona prisutnih u morskoj vodi. Međutim,boja može kontrolisati koroziju metalnih predmeta kao što su roboti. Otpornost na koroziju mekog čelika u 3,5% rastvoru natrijum hlorida pre i posle premazanja azijskom zaštitnom crvenom bojom procenjena je polarizacionom studijom i spektrom impedanse naizmenične struje. U prisustvu azijske zaštitne crvene boje, otpor linearne polarizacije se povećava, struja korozije se smanjuje, otpor prenošenja naboja raste, kapacitivnost dvoslojnog sloja se smanjuje, a vrednost impedanse raste. Tako je otpornost na koroziju predmeta od mekog čelika u 3,5% rastvoru natrijum hlorida nakon premazivanja azijskom zaštitnom crvenom bojom poboljšana.
Reference
Akalezi, C.O., Ogukwe, C.E., Ejele, E.A., Oguzie, E.E. (2017) Mild steel protection in acidic media using Mucuna pruriens seed extract. Int. J. Corros. Scale Inhib, 5(2): 132-146
Anandan, A., Rajendran, S., Sathiyabama, J., Sathiyaraj, D. (2017) Influence of some tablets on corrosion resistance of orthodontic wire made of SS 316L alloy in artificial saliva. International Journal of Corrosion and Scale Inhibition, 6(2): 132-141
Devi, P.N., Sathiyabama, J., Rajendran, S. (2017) Study of surface morphology and inhibition efficiency of mild steel in simulated concrete pore solution by lactic acid-Zn2+ system. International Journal of Corrosion and Scale Inhibition, 6(1): 18-31
Epshiba, R., Regis, A.P.P., Rajendran, S. (2014) Inhibition of Corrosion of Carbon Steel In A Well Water By Sodium Molybdate-Zn2+ System. Int. J. Nano Corros. Sci. Eng, 1: 1-11
Fouda, A.S., El-Morsy, M.A., El-Barbary, A.A., Lamloum, L.E. (2016) Study on corrosion inhibition efficiency of some quinazoline derivatives on stainless steel 304 in hydrochloric acid solutions. International Journal of Corrosion and Scale Inhibition, 5(2): 112-131
Gowri, S., Sathiyabama, J., Rajendran, S., Thangakani, J.A. (2012/2020) Tryptophan as corrosion inhibitor for carbon steel in sea water. J. Chem., Biol. Phys. Sci.+ Int. J. Corros. Scale Inhib, 2: 2223, 9(3): 979-999
Kavitha, N., Manjula, P. (2014) Corrosion Inhibition of Water Hyacinth Leaves, Zn2+ and TSC on Mild Steel in neutral aqueous medium. Int. J. Nano Corros. Sci. Eng, 1: 31-38
Knyazeva, L.G., Tsygankova, L.E., Dorokhov, A.V., Kur'yato, N.A. (2021) Protective efficiency of oil compositions with Cortec VpCI-368D. International Journal of Corrosion and Scale Inhibition, 10(2): 551-561
Mary, A.C.C., Rajendran, S., Al-Hashem, H., Rathish, R.J., Umasankareswari, T., Jeyasundari, J. (2015) Corrosion Resistance Of Mild Steel In Simulated Produced Water In Presence Of Sodium Potassium Tartrate. Int. J. Nano Corr. Sci. Eng, 1: 42-50
Mary, A.C.C., Rajendran, S., Jeyasundari, J. (2017) Influence of Coffee on the corrosion resistance of SS 316L, Ni-Ti alloy and thermoactive alloy in artificial saliva. Eur. Chem. Bull, 6: 232-237
Nagalakshmi, R., Nagarajan, L., Rathish, R.J., Prabha, S.S., Vijaya, N., Jeyasundari, J., Rajendran, S. (2014) Corrosion Resistance Of SS316l In Artificial Urine In Presence Of D-Glucose. Int. J. Nano Corros. Sci. Eng, 1: 39-49
Nithya, A., Shanthy, P., Vijaya, N., Rathish, R.J., Prabha, S.S., Joany, R.M., Rajendran, S. (2015) Inhibition of Corrosion of Aluminium by an aqueous extract of beetroot (Betanin). Int. J. Nano Corr. Sci. Eng, 2: 1-8
Onat, T.A., Yiğit, D., Nazır, H., Güllü, M., Dönmez, G. (2016) Biocorrosion inhibition effect of 2-aminopyrimidine derivatives on SRB. International Journal of Corrosion and Scale Inhibition, 5(3): 273-281
Rajendran, S., Agasta, M., Devi, B.R., Devi, S.B., Rajam, K., Jeyasundari, J. (2009) Corrosion inhibition by an aqueous extract of Henna leaves (Lawsonia Inermis L). Zaštita materijala, vol. 50, br. 2, str. 77-84
Rajendran, S., Chitradevi, P., Johnmary, S., Krishnaveni, A., Kanchana, S., Christy, L., Nagalakshmi, R., Narayanasamy, B. (2010) Corrosion behaviour of SS 316 L in artificial saliva in presence of electral. Zaštita materijala, vol. 51, br. 3, str. 149-158
Rajendran, S., Devi, K.M., Regis, P.P.A., Amalraj, J.A., Jeyasundari, J., Manivannan, M. (2009) Electroplating using environmental friendly garlic extract: A case study. Zaštita materijala, vol. 50, br. 3, str. 131-140
Sribharathy, V., Rajendran, S., Rengan, P., Nagalakshmi, R. (2013) Corrosion Inhibition By An Aqueous Extract Of Aleovera (L) Burm F. (Liliaceae). Eur. Chem. Bull, 2: 471-476
Thangakani, J.A., Rajendran, S., Sathiabama, J., Joany, R.M., Rathis, R.J., Prabha, S.S. (2014) Inhibition of corrosion of carbon steel in aqueous solution containing low chloride ion by Glycine-Zn 2+ system. International Journal of Nano Corrosion Science and Engineering, 1: 50-62
Vigdorovich, V.I., Tsygankova, L.E., Tanygina, E.D., Yu, T.A., Shel, N.V. (2016) Colza oil. Int. J. Corros. Scale Inhib, 5(1): 59-65
Zin, I.M., Korniy, S.A., Kytsya, A.R., Kwiatkowski, L., Ya, L.P., Zin, Y.I. (2021) Aluminium alloy corrosion inhibition by pigments based on ion exchanged zeolite. International Journal of Corrosion and Scale Inhibition, 10(2): 541-550
 

O članku

jezik rada: engleski
vrsta rada: naučni članak
DOI: 10.5937/zasmat2201015R
primljen: 30.07.2021.
revidiran: 22.08.2021.
prihvaćen: 30.08.2021.
objavljen u SCIndeksu: 10.03.2022.
Creative Commons License 4.0

Povezani članci

Nema povezanih članaka