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The research of anti corrosive properties of various compositions on samples of standard metals

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this proceeding. the compositions of the T-30 turbine oil with liquid rubber. Co. Ni. Zn. Mg and Ba salts of the natural petroleum acids (NPA) boiling in the range 220–340°C and nitro compounds which are produced on the basis of C14 H28  α-olefins have been investigated in different ratio and contents as metalworking fluids (MWF). The physical and chemical properties of the produced compositions have been studied. and the morphology of inhibited carbon steel surface was analyzed and characterized by using Fourier transform infrared (FTIR) and scanning electron microscopy (SEM) techniques. The effect of the temperature on the inhibition efficiency and thermodynamic parameters have also been reported. The thermal analyzer was used for the thermogravimetric analysis (TG/DTA) of the prepared MWF. The experiments have been operated with different concentrations of the inhibitor on the steel plates in condensation and environment phases in the experiment chamber.
Rocznik
Strony
80--86
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
  • Azerbaijan National Academy of Sciences, Institute of Petrochemical Processes Named After Acad, Yu.G. Mamedaliyev, AZ1025, Azerbaijan, Baku, Khojali ave. 30
  • Azerbaijan National Academy of Sciences, Institute of Petrochemical Processes Named After Acad, Yu.G. Mamedaliyev, AZ1025, Azerbaijan, Baku, Khojali ave. 30
  • Azerbaijan National Academy of Sciences, Institute of Petrochemical Processes Named After Acad, Yu.G. Mamedaliyev, AZ1025, Azerbaijan, Baku, Khojali ave. 30
  • Azerbaijan National Academy of Sciences, Institute of Petrochemical Processes Named After Acad, Yu.G. Mamedaliyev, AZ1025, Azerbaijan, Baku, Khojali ave. 30
  • Azerbaijan National Academy of Sciences, Institute of Petrochemical Processes Named After Acad, Yu.G. Mamedaliyev, AZ1025, Azerbaijan, Baku, Khojali ave. 30
Bibliografia
  • 1. Rozenfeld, I. L. 1981. Corrosion Inhibitors; McGraw-Hill. New York. p. 182.
  • 2. Roberge, P. R. 2008. Corrosion Engineering Principle and Practice. McGraw-Hill. New York. 730 p.
  • 3. McCoy, J. S. (2006). Introduction: Tracing the Historical Development of Metalworking Fluids, in Metalworking Fluids; Byers. J.P. Ed.; 2nd edition. Taylor & Francis. New York. pp. 1–18.
  • 4. Brinksmeier, E., Meyer, D., Huesmann-Cordes, A. G. & Herrmann, C. (2015). Metalwor-king fluids-Mechanisms and performance. CIRP Ann. Manufact. Technol. 64, 605–628 (http://creativecommons.org/licenses/by-nc-nd/4.0/).
  • 5. Hugh Spikes (2008). Low- and zero-sulphated ash. phosphorus and Sulphur anti-wear additives for engine oils. Lubrication Sci. 20, 103–136 DOI: 10.1002/ls.57.
  • 6. Fouda, A. S., Elmorsi, M. A. & Abou-Elmagd, B. S. (2017). Adsorption and inhibitive properties of methanol extract of Eeuphorbia Heterophylla for the corrosion of copper in 0.5 M nitric acid solutions. Pol. J. Chem. Technol. 19(1), 95–103. DOI: 10.1515/pjct-2017-0014.
  • 7. Dharma, R., Kodali. (2002). “High performance ester lubricants from natural oils”. Ind. Lubr. Tribol. 54(4) 165–170. http://dx.doi.org/10.1108/00368790210431718
  • 8. Zvirko, O. I., Mytsyk, A. B., Tsyrulnyk, O. T., Gabetta, G. & Nykyforchyn, H. M. (2017). Corrosion Degradation of Steel of an Elbow of Gas Pipeline with Large-Scale Delamination after Long-Term Operation. Mater. Sci. 52(6). 861–865 https://doi.org/10.1007/s11003-017-0032-8.
  • 9. Ghai, I., Wentz, J., DeVor, R. E., Kapoor, S. G. & Samuel, J. (2010). Droplet behavior on a rotating surface for atomization-based cutting fluid application in micromachining. J. Manuf. Sci. Eng. 132(1). 011017 DOI:10.1115/1.4000859
  • 10. Myshkin, N. K. & Markova, L. V. (2016). Methods and Instruments for Condition Monitoring of Lubricants. In: On-line Condition Monitoring in Industrial Lubrication and Tribology. Appl. Condit. Monitoring, 8, 1–29 Springer. Cham. https://doi.org/10.1007/978-3-319-61134-1_1
  • 11. Zhao, F., Urbance, M. & Skerlos, S. J. (2004). Mechanistic Model of Coaxial Microfiltration for Semi-Synthetic Metalworking Fluid Microemulsions. J. Manufact. Sci. Enginee. 126(3), 435. http://doi.org/10.1115/1.1763187.
  • 12. Shujun, Gao, Peng, Jin, Bruce, Brown and etc. (2017). Corrosion behavior of mild steel in sour environments at elevated temperatures. Corrosion. Vol. 73. No. 8. pp. 915–926 https://doi.org/10.5006/2366
  • 13. Aiad, I., Riya, M. A., Tawfik, S. M. & Abousehly, A. M. (2016). Protection of carbon steel against corrosion in hydrochloric acid solution by some synthesized cationic surfactants. 52: 339. https://doi.org/10.1134/S2070205116020027
  • 14. Skerlos, S. J., Rajagopalan, N., DeVor, R. E., Kapoor, S. G. & Angspatt, V. D. (2001). Microfiltration of Polyoxyalkylene Metalworking Fluid Lubricant Additives Using Aluminum Oxide Membranes. J. Manufact. Sci. Enginee. 123(4), 692. http://doi.org/10.1115/1.1392993.
  • 15. Thomas Norrby. (2003). Environmentally adapted lubricants – where are the opportu-nites? Ind. Lubr. Tribol. 5(6), 268–274. https://doi.org/10.1108/00368790310496400.
  • 16. Skerlos, S. J. (2011). Cutting Fluids and their Environmental Impact. Chap. Encyclop. Tribol. Springer. http://doi.org/10.1007/978-0-387-92897-5.
  • 17. MacLean, D., Hayes, K., Barnard, T., Hull, T., Park, Y. E. & Skerlos, S. J. (2009). Impact of Supercritical Carbon Dioxide Metalworking Fluids on Tool Life in turning of Sintered Steel and Milling of Compacted Graphite Iron. Proceed. ASME Inter. Manufact. Sci. Enginee. Conference 2009. MSEC2009, October 4–7, 2009. West Lafayette. Indiana. USA. pp. 43–48.
  • 18. Singh, B. P., Nayak., S., Nanda. K., Bikash, K. J., Bhattacharjee, S. & Besra, L. (2013). The production of a corrosion resistant graphene reinforced composite coating on copper by electrophoretic deposition. Carbon 61, 47–56. DOI: 10.1016/j.carbon.2013.04.063.
  • 19. Kaiyue, Li., Guoding Chen, Deng Liu. (2016). Study of the influence of lubrication parameters on gear lubrication properties and efficiency. Ind. Lubr. Tribol. 68(6). 647–657. https://doi.org/10.1108/ILT-06-2015-0089
  • 20. Chang, S. C., Rihana, A., Bahrman, S., Gruden, C. L., Khijniak, A. I., Skerlos, S. J. & Adriaens, P. (2004). Flow cytometric detection and quantification of mycobacteria in metalworking fluids. Inter. Biodeterioration & Biodegradation 54(2–3), 105–112. http://doi.org/10.1016/j.ibiod.2004.03.019
  • 21. Hernández Gayosso, M. J. Nava, N. & Zavala, G. Olivares. (2016). Characterisation and comparison of corrosion products originated in steel pipelines transporting sour gas and crude oil. Inter. J. Corr. Process. Corr. Control 51(8), 626–634. http://dx.doi.org/10.1080/1478422X.2016.1173421.
  • 22. Bhanudas Dattatraya Bachchhav, Geeta, S. Lathkar. Harijan Bagchi. (2014). Tribology of drawing lubricants for low carbon steel. Ind. Lubr. Tribol. 66(6), 640–644. https://doi.org/10.1108/ILT-10-2012-0105.
  • 23. Nasirov, F. A. (1983). Issledovaniye i razrabotca prochessa polucheniya nizcomolekulyar-noqo polibutadiyena v prisutstvii cataliticheskix sistem na osnove orqanichescix ditioproizvodnix nicelya (cobalta). Diss... cand.xim.nauk.. Baku. IPP ANAS 202 p.
  • 24. ASTM C 613-14: ‘Standard test method for constituent content of composite prepreg by Soxhlet Extraction’.
  • 25. van de Voort, F. R., Sedman, J. & Pinchuk, D. (2011). An overview of progress and new developments in FTIR lubricant condition monitoring methodology. J. ASTM Int. 8(5). ID: JAI103344Google Scholar.
  • 26. Zimmerman, J. B., Hayes, K. F. & Skerlos, S. J. (2004). Influence of Ion Accumulation on the Emulsion Stability and Performance of Semi-Synthetic Metalworking Fluids. Enviromen. Sci. Technol, 38(8), 2482–2490. http://doi.org/10.1021/es0340477
  • 27. Li Ming Chu, Jaw-Ren Lin, Yuh-Ping Chang. & Chung-Chun Wu. (2016). Elastohydrodynamic lubrication of circular contacts at pure squeeze motion with micropolar lubricants. Ind. Lubr. Tribol. 68(6) pp. 640–646. https://doi.org/10.1108/ILT-10-2015-0139.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7d2b5d62-78a4-482f-b979-d6616b909fa4
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