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Study of Corrosion Inhibition Behavior of Vappro 844 Via Colloid Formation

Published online by Cambridge University Press:  01 December 2016

N. Cheng
Affiliation:
Magna International PTE. LTD., 10H Enterprise Rd, Singapur 629834
J. Cheng
Affiliation:
Magna International PTE. LTD., 10H Enterprise Rd, Singapur 629834
B. Valdez
Affiliation:
Laboratorio de Materiales, Minerales y Corrosión, Instituto de Ingeniería, Universidad Autónoma de Baja California, C.P. 21280, Mexicali, México.
M. Schorr
Affiliation:
Laboratorio de Materiales, Minerales y Corrosión, Instituto de Ingeniería, Universidad Autónoma de Baja California, C.P. 21280, Mexicali, México.
J. M. Bastidas
Affiliation:
Centro Nacional de Investigaciones Metalúrgicas (CENIM). Consejo Superior de Investigaciones Científicas (CSIC). Avda. Gregorio del Amo 8, 28040 Madrid, Spain.
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Abstract

The main purpose of this research was to establish the effectiveness of the V844 corrosion inhibitor for seawater on various metallic materials: carbon steel, aluminum and copper alloy at different concentrations via colloid formation. The changes in both physical and chemical properties of seawater, including pH, total hardness, alkalinity, total dissolved solids (TDS) and conductivity at different concentrations of V844 were assessed, too. The test procedure involves dissolving the V844 corrosion inhibitor powder provided by Magna International Private Limited in seawater to obtain a stock solution of 4% V844 in seawater, which was further diluted to obtain the remaining concentrations. The analysis of parameters begun when various metal species, polished beforehand, were placed into the solutions. The analysis was observed over a period of 26 days and a total of 9 sets of readings were obtained. From our observation and analysis, it was concluded that the inhibitor worked best at 0.05% concentration for carbon steel.

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Articles
Copyright
Copyright © Materials Research Society 2016 

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References

Hummel, R., Alternative Futures for Corrosion and Degradation Research, Potomac Institute Press, 2014, pp. 213 Google Scholar
Raichev, R., Veleva, L., Valdez, B., “Corrosión de Metales y Degradación de Materiales,” Editor: Schorr, M., Universidad Autónoma de Baja California (2009), p. 281284. (Spanish).
Garcia, R., Valdez, B., Schorr, M., Eliezer, A., Green Corrosion Inhibitor for Water Systems, MP 52, 6 (2013): pp.4851.Google Scholar
Layoza, E., Building the PEMEX of tomorrow, Mexico oil and gas review, New Energy Connections, pp. 67, 2014.Google Scholar
Schorr, M., Valdez, B., Ocampo, J., So, A., Eliezer, A., Materials and corrosion control in desalination plants, MP 51, 5 (2012): pp 5661.Google Scholar
Valdez, B., Flores, J., Cheng, J., Schorr, M., Veleva, L., Application of vapour phase corrosion inhibitors for silver corrosion control in the electronic industry, Corrosion Reviews 21, 5–6 (2003): pp 445457.CrossRefGoogle Scholar
Carrillo, , Valdez, B., Schorr, M., Zlatev, R., Inorganic inhibitors mixture for control of galvanic corrosion of metals cleaning processes in industry, NACE Conference, 2012, USA.
Hilleary, J., Dewitt, J., Corrosion Rate Monitoring in Pipeline Casings, MP 53, 3(2014): pp. 28 Google Scholar
Murthy, T., Monitoring of Chemical Treatment is Essential to Prevent Internal Corrosion, MP 53, 9(2014): pp. 54 Google Scholar
Inzunza, R. G., Valdez, B., Schorr, M., Corrosion inhibitors patents for industrial applications. A review, Recent Patents on Corrosion Science 3, 2 (2013): pp. 7178.CrossRefGoogle Scholar
Bastidas, D. M., Cano, E., Mora, E. M., Volatile Corrosion Inhibitors: A Review, Anti-Corrosion Methods and Materials, Vol 52, No. 7, pp. 7177, 2005.CrossRefGoogle Scholar
ASTM G31-13, “Standard Practice for Laboratory Immersion Corrosion Testing of Metals” (West Conshocken, PA: ASTM International).
NACE TM0169-2000, “Laboratory Corrosion Testing of Metals” (Houston, TX: NACE International, 2012).
Heidersbach, R., Metallurgy and Corrosion Control in Oil and Gas Production (Hoboken, NJ: Jhon Wiley and Sons, 2011.CrossRefGoogle Scholar
Chilingar, G. V., et al., The Fundamentlas of Corrosion and Scaling for Petroleum and Environmental Engineers (Houston, TX: Gulf Publishing Co., 2008).Google Scholar
Schorr, M., Valdez, B., Salinas, R., Ramos, R., Nedev, N., Curiel, M., Corrosion Control in Military Assets, International Material Research Congress 2015, Symposium 6J NACE: Corrosion and Metallurgy, Cancun, Mexico.Google Scholar

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