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2021, vol. 62, br. 3, str. 213-219
Elektrohemijsko ponašanje različitih metala za implantaciju u prisustvu različitih simuliranih telesnih tečnosti - pregled
aLoyola College, Loyola Institute of Frontier Energy, PG and Research Department of Chemistry, Tamil Nadu, India
bRKM Vivekananda College, Department of Chemistry, Tamil Nadu, India
cSt. Antony's College of Arts and Sciences for Women Thamaraipady, PG Department of Chemistry, Corrosion Research Centre, Tamil Nadu, India

e-adresajohnmarysj@gmail.com
Ključne reči: korozija; Henkov rastvor; legura; veštačke telesne tečnosti
Sažetak
U savremenoj medicini metali i legure se koriste kao implantati. Proučava se ponašanje korozije različitih biomaterijala u veštačkim telesnim tečnostima. U ljudsko telo se ugrađuju veštački biomaterijali koji zamenjuju kosti, zube itd. Čak se i organi medicinski zamjenjuju različitim vrstama metala, poput mekog čelika, ugljeničnog čelika, legure Ni-Cr, legure Fe-Cr, 22-karatnog zlata, 24-karatnog zlatnog kalaja itd., zbog njihove biokompatibilnosti. To se postiže povezivanjem ovih metala direktno sa tkivima tela. Metali imaju tendenciju korozije kada dođu u kontakt sa tečnostima ljudskog tela. Telesne tečnosti na taj način dolaze u direktan kontakt sa tkivima, a tkiva su u kontaktu sa metalom i na taj način izazivaju koroziju metala. Stoga se studije otpornosti na koroziju, poput polarizacije, impedanse naizmenične struje, cikličnih voltametrijskih studija itd., sprovode u medijumu poput veštačke krvne plazme, veštačkog urina, veštačke salvije, veštačkog znoja, Henkovog rastvora, Ringerovog rastvora itd. Tečnosti se ispituju u prisustvu različitih implantacionih metala elektrohemijskim metodama i formiraju se zaštitni filmovi koji se analiziraju različitim tehnikama površinske analize kao što su AFM, FTIR-UV , SEM itd. Nalazi istraživanja će time biti od velike pomoći medicinskom polju.
Reference
Affi, J., Ihsan, F., Fajri, H., Gunawarman, P. (2019) Corrosion Behavior of New Type Titanium Alloy As Candidate for Dental Wires in Artificial Saliva on Fluctuating Temperatures. IOP Conference Series: Materials Science and Engineering, 547(1): 012022
Agiladevi, S., Rajendran, S. (2019) Electrochemical studies on the corrosion behaviour of metals and alloys in simulated ringer 's solution. Rasayan Journal of Chemistry, 12(1): 22-31
Agnes, B.V., Thangavelu, C., Rajendran, S., Al-Hashem, A. (2018) Corrosion resistance of SS18/8 alloy, SS316L alloy, Gold18 carat and Gold 22 carat in artificial saliva in the absence and presence of erythromycin tablet 500mg. Zaštita materijala, vol. 59, br. 2, str. 182-188
Ahmadian, Z., Danaee, I., Golozar, M.A. (2014) Effect of surface treatment on Corrosion Resistance of 304 Stainless Steel implants in Tyrode solution. Archives of Metallurgy and Materials, 59(1): 25-30
Cheng, F.T., Lo, K.H., Man, H.C. (2006) An electrochemical study of the crevice corrosion resistance of NiTi in Hanks' solution. Journal of Alloys and Compounds, 437: 322-328
Elagli, K., Traisnel, M., Hildebrand, H.F. (1993) Electrochemical behaviour of titanium and dental alloys in artificial saliva. Electrochimica Acta, 38(13): 1769-1776
El-Rabiei, M.M., Bahrawy, A., El-Feky, H.E., Negem, M., Safaa, M.M., Nady, H. (2020) The Effect of Ni Content on the Corrosion Resistance of Some Fe-Cr-Ni Alloys in Simulated Body Fluids in the Presence of H2O2 and Albumin. Journal of Bioand Tribo-Corrosion, 6: 52-61
Erwansyah, E., Susilowati, C. (2019) The effect of snake fruit extract (Salaccazalacca) in inhibiting the release of Chromium (Cr) and Nickel (Ni) ion from stainless steel orthodontic wire to saliva. International Journal of Applied Pharmaceutics, 11(4): 3336-3344
Fekry, A.M., El-Sherif, R.M. (2009) Electrochemical corrosion behavior of magnesium and titanium alloys in simulated body fluid. Electrochimica Acta, 54: 7280-7285
Gowri, S., Jaslin, L.B., Kanagamani, B., Kavitha, A., Maria, B.A., Muthunayaki, C., Pandeeswari, C., Maria, P.J., Umasankareswari, T., Jerald, M.L., Rajendran, S. (2020) Influence of Metformin Hydrochloride-250 mg (MFH) tablet on Corrosion Resistance of orthodontic wire made of NiCr alloy in Artificial Saliva. J Chem Sci Chem Engg, 1(1): 1-10
John, M.S., Rajendran, S. (2013) Corrosion Behaviour of SS316L in Artificial Blood Plasma in Presence of Amoxicillin Portugaliae. Electrochimica Acta, 31(1): 33-40
John, M.S., Rajendran, S. (2013) Corrosion behaviour of metals in artificial blood plasma in presence of glucose. Portugaliae Electrochimica Acta, 31(1): 33-40
Joseph, Rathish R., Rajendran, S., Lydia Christy J., Shyamala Devi, B., Johnmary, S., Manivannan, M., Rajam, K., Rengan, P. (2010) Corrosion behaviour of metals in Artificial Sweat. Open Corrosion Journal, 3: 38-44
Kajzer, W., Krauze, A., Walke, W., Marciniak, J. (2006) Corrosion resistance of Cr-Ni-Mo steel in simulated body fluids. Journal of Achievements in Materials and Manufacturing Engineering, 18(1-2): 56-64
Kamiński, J., Małkiewicz, K., R, biś J., Wierzchoń, T. (2020) The effect of glow discharge nitriding on the corrosion resistance of stainless steel orthodontic arches in artificial saliva solution. Archives of Metallurgy and Materials, 65(1): 375-384
Liang, C., Zheng, R., Huang, N., Wu, B. (2010) Electrochemical behaviour of Ti-Ni SMA and Co-Cr alloys in dynamic Tyrode's simulated body fluid. J Mater Sci Mater Med, 21: 1421-1426
Liu, L., Qiu, C.L., Chen, Q., Zhang, S.M. (2006) Corrosion behavior of Zr-based bulk metallic glasses in different artificial body fluids. Journal of Alloys and Compounds, 425(1-2), 268-273
Lu, Ch., Zheng, Y., Zhong, Q. (2017) Corrosion of dental alloys in artificial saliva with Streptococcus mutans. PLoS ONE, 12(3): e0174440
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(6): 232-237
Mary, C.C.A., Rajendran, S., Jeyasundari, J., Dorothy, R. (2017) Corrosion resistance of Ni-Ti alloy, SS18/8 alloy and thermoactive alloy in artificial saliva in the absence and presence of tea. Zaštita materijala, vol. 58, br. 4, str. 469-474
Mary, J.S., Rajendran, S. (2014) Corrosion behavior of Cu-Ni-Ti in artificial blood plasma in presence of cholesterol. Zaštita materijala, vol. 55, br. 3, str. 244-250
Mary John S., Puthlibai, G., Kathiravan, P., Mano, D.J., Selvam, A. (2021) Electrochemical behaviour of Ni-Ti (Super elastic) alloy in artificial saliva in the presence of Phexin. Materials today proceedings, 36(4): 878-882
Musa-Trolić, I., Serdarević, N.L., Todorić, Z., Spalj, S., Otmačić-Ćurković, H. (2019) Corrosion of orthodontic archwires in artificial saliva in the presence of Lactobacillus reuteri. Surface and Coatings Technology, 370: 44-52
Nagalakshmi, R., Sathiyabama, J., Basha Ameeth, I., Mary, J.S. (2017) Invitro Corrosion studies on Nickel Titanium Super elastic alloy in synthetic urine in presence of D-Glucose. International Journal of Materials Science, 12(2): 51-59
Nagalakshmi, R., Rajendran, S., Sathiyabama, J., Pandiarajan, M., Lydia, C.J. (2013) Corrosion behaviour of metals in Artificial Urine in presence of Sodium Chloride. European Chemical Bulletin, 2(4): 150-153
Nahusona, D.R., Koriston, P. (2019) The effectiveness of watermelon rind extract as corrosion inhibitor in stainless steel orthodontic wire. International Journal of Applied Pharmaceutics, 11(4): 2225-2233
Nikolova, M.P., Yankov, E.H. (2019) Corrosion Study of Ti5Al4V and Ti6Al4V in different Simulated Body fluids. u: da Silva L.F.M. [ur.] Materials Design and Applications: Advanced Structured Materials, Switzerland: Springer Nature Switzerland AG, II, 98
Petrović-Mihajlović, M.B., Radovanović, M.B., Simonović, A.T., Tasić, Ž.Z., Antonijević, M.M. (2019) Evaluation of purine based compounds as the inhibitors of copper corrosion in simulated body fluid. Results in Physics, 14: 102357
Pohrelyuk, I.M., Tkachuk, O.V., Proskurnyak, R.V. (2012) Corrosion Behaviour of Ti-6Al-4V Alloy with Nitride Coatings in Simulated Body Fluids at 36°C and 40°C. ISRN Corrosion, ID 241830
R.Nagalakshmi,, Rajendran, S., Sathiyabama, J. (2013) Corrosion Inhibitive Effect of Metal and alloy in artificial Urine in presence of Urea. International Journal of Advances in Engineering and Technology, 6(4): 1914-1921
Rajendran, S., Paulraj, J., Rengan, P., Jeyasundari, J., Manivannan, M. (2009) Corrosion behaviour of metals in artificial saliva in presence of spirulina powder. Journal of Dentistry and Oral Hygiene, 1(1): 001-008
Rajendran, S., Uma, V., Krishnaveni, A., Jeyasundari, J., Shyamaladevi, B., Manivannan, M. (2009) Corrosion behavior of metals in artificial saliva in presence of D-Glucose. Arabian Journal for Science and Engineering, 34(2C) 147-158
Saha, N., Basu, J., Sen, P., Majumdar, G. (2020) Electrochemical behaviour of martensitic stainless steel with blood. Materials Today: Proceedings, 26(2): 677-680
Sharma, M., Ramesh, K.A.V., Singh, N., Adya, N., Saluja, B. (2008) Electrochemical Corrosion Behavior of Dental/Implant Alloys in Artificial Saliva. Journal of Materials Engineering and Performance, 17(5): 687-695
Sharma, M.R., Mahato, N., Cho, M.H., Chaturvedi, T.P., Singh, M.M. (2019) Effect of fruit juices and chloride ions on the corrosion behavior of orthodontic archwire. Materials Technology, 34(1): 18-24
Tsutsumi, Y., Takano, Y., Doi, H., Noda, K., Hanawa, T. (2007) Corrosion Behaviour of Zirconium based alloys in Simulated Body Fluids. u: Materials Science Forum, Switzerland: Trans Tech Publications, 561-565: 1489-1492
Walke, W., Paszenda, Z., Ziêbowicz, A. (2007) Corrosion behaviour of Co-Cr-W-Ni alloy in diverse body fluids. International Scientific Journal, 28(5): 293-296
Yang, H., Yang, K., Zhang, B. (2006) Pitting Corrosion resistance of La added 316L stainless steel in simulated body fluids. Materials Letters, 61(4-5): 1154-1157
Ziębowicz, B., Woźniak, A., Ziębowicz, A., Ziembińska-Buczyńska, A. (2019) Analysis of the surface geometry of the orthodontic archwire and their influence on the bacterial adhesion. Journal of Achievements in Materials and Manufacturing Engineering, 93(1-2): 32-40
 

O članku

jezik rada: engleski
vrsta rada: pregledni članak
DOI: 10.5937/zasmat2103213M
primljen: 01.07.2021.
revidiran: 20.07.2021.
prihvaćen: 27.07.2021.
objavljen u SCIndeksu: 03.09.2021.
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