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Mentha Piperita Extract as a Natural Product for the Corrosion Inhibition of Low Carbon Steel in a Polluted NaCl Environment : Chemical, Electrochemical and Biological Studies


Affiliations
1 Faculty of Science, Mansoura University, Mansoura-35516, Egypt
2 Faculty of Science, Umm Al-Qura University, Makkah, Saudi Arabia
3 Nile Higher Institute for Engineering and Technology, EI-Mansoura, Egypt
4 Faculty of Technological Industry and Energy, Delta Technological University, Qewasnia, EI-Menoufia, Egypt
 

The impact of aqueous Mentha piperita extract (MPE) as a corrosion inhibitor for low carbon steel (LCS) in NaCl/Na2S solution has been investigated using chemical and electrochemical techniques to evaluate the protection performance of MPE. ―As the concentration of the extract increased, the protection efficiency (PE) increased, reaching 91.2% at 300 ppm, whereas the increase in temperature favoured to slow decrease‖.The extract has been physically adsorbed on the metal surface according to the Temkin isotherm. Polarization data reveal that this extract acts as a mixed inhibitor. The mechanism of corrosion protection of MPE has been discussed from electrochemical techniques. MPE has been adsorbed on LCS obeying Temkin isotherm. Surface morphology techniques such as scanning electron microscopy (SEM) and atomic force microscopy have been used to demonstrate the creation of a protective coating on the LCS in the presence of MPE. The extract inhibits the bacterial activity of Escherichia coli.

Keywords

Corrosion Inhibition, Low Carbon Steel, NaCl/Na2S, Mentha Piperita Extract (MPE), Temkin Isotherm.
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  • Eddy N, Int J Phys Sci, 4 (2009) 165.
  • Eddy N, Odoemelam S A & Akpanudoh N W, Res J Pure Appl Sci, 4 (2008) 1963.
  • Sultan A A, Ateeq A A, Khaled N I, Taher M K & Khalaf M N, J Mater Environ Sci, 5 (2014) 498.
  • Selles C, Benali O, Tabti B, Larabi L & Harek Y, J Mater Environ Sci, 3 (2012) 206.
  • Khadraoui A, Khelifa A, Boutoumi H, Hamitouche H, Mehdaoui R & Hammouti B & Al-Deyab S S, Int J Electrochem Sci, 9 (2014) 3334.
  • Verma C B, Quraishi M A & Ebenso E E, Int J Electrochem Sci, 9 (2014) 5507.
  • Fouda A S, El-Hossiany A & Ramadan H, Zast Mater, 58 (2017) 541.
  • Fouda A S, Mohamed O A & Elabbasy H M, J Bio Tribo Corros, 7 (2021) 1.
  • Kamel M M, Fouda A A S, Rashwan S M & Abdelkader O, Green Chem Lett Rev, 14 (2021) 598.
  • Fouda A S, Al-Hazmi N E, El-Zehry H H & El-Hossainy A, J Appl Chem, 9 (2020) 362.
  • Majidi L, Faska Z, Znini M, Kharchouf S, Bouyanzer A & Hammouti B, J Mater Environ Sci, 1 (2010) 219.
  • Znini M, Cristofari G, Majidi L, Ansari A, Bouyanzer A & Paolini J, Costa J & Hammouti B, Int J Electrochem Sci, 7 (2012) 3959.
  • Chraibi M, Benbrahim K F, Elmsellem H, Farah A, Abdel-Rahman I, El Mahi B, Filali Baba Y, Kandri Rodi Y & Hlimil F, J Mater Environ Sci, 8 (2017) 972.
  • Belkhaouda M, Bammou L, Salghi R, Benali O, Zarrouk A & Ebenso E E, Hammouti B, J Mater Environ Sci, 4 (2013) 1042.
  • Fouda A S, Badr S E, Ahmed A M & El-Hossiany A, Int J Corros Scale Inhib, 10 (2021) 1011.
  • Afia L, Salghi R, Bazzi E, Bazzi L, Errami M & Jbara O, Al-Deyab S S & Hammouti B, Int J Electrochem Sci, 6 (2011) 5918.
  • Salhi A, Bouyanzer A, Hamdani I, Chetouani A, Hammouti B & Znini M, Majidi L, Costa J & El Azzouzi M, Der Pharma Chem, 7 (2015) 138.
  • Fouda A S, El-Gharkawy E S, Ramadan H & El-Hossiany A, Biointerface Res Appl Chem, 11 (2021) 9786.
  • Halambek J, Berković K & Vorkapić-Furač J, Corros Sci, 52 (2010) 3978.
  • Zerga B, Sfaira M, Rais Z, Touhami M E, Taleb M & Hammouti B, Matériaux Tech, 97 (2009) 297.
  • Hussin M H, Rahim A A, Ibrahim M N M & Brosse N, Measurement, 78 (2016) 90.
  • Sachinkumar P R, Patil R S & Godghate A G, Int J Pharm Pharm Sci, 8 (2016) 352.
  • Sroka Z, Fecka I & Cisowski W, Zeitschrift für Naturforsch C, 60 (2005) 826.
  • Fouda A S, El-Wakeel A M, Shalabi K & El-Hossiany A, Elixir Corros Day, 83 (2015) 33086.
  • Singh A, Singh V K & Quraishi M A, Rasayan J Chem, 3 (2010) 811.
  • Bentiss F, Traisnel M, Chaibi N, Mernari B, Vezin H & Lagrenée M, Corros Sci, 44 (2002) 2271.
  • Popova E, Sokolova S, Raicheva S & Christov M, Solut Corros Sci, 45 (2003) 33.
  • Al-Sarawy A A, Fouda A S & El-Dein W A S, Desalination, 229 (2008) 279.
  • Fouda A S, Shalabi K & E-Hossiany A, J Bio Tribo Corros, 2 (2016) 1.
  • El-Sherbini E E F, Mater Chem Phys, 60 (1999) 286.
  • Fouda A S, Azeem M A, Mohamed S & El-Desouky A, Int J Electrochem Sci, 14 (2019) 3932.
  • Fouda A S, Abd El-Maksoud S A, Belal A A M, El-Hossiany A & Ibrahium A, Int J Electrochem Sci, 13 (2018) 9826.
  • Fouda A S, Rashwan S, El-Hossiany A & El-Morsy F E, J Chem Biol Phys Sci, 9 (2019) 1.
  • Fouda A S, Abdel-Latif E, Helal H M & El-Hossiany A, Russ J Electrochem, 57 (2021) 159.
  • Fouda A S, Ibrahim H, Rashwaan S, El-Hossiany A & Ahmed R M, Int J Electrochem Sci, 13 (2018) 6327.
  • Motawea M M, El-Hossiany A & Fouda A S, Int J Electrochem Sci, 14 (2019) 1372.
  • Fouda A S, Eissa M & El-Hossiany A, Int J Electrochem Sci, 13 (2018) 11096.
  • Fouda A S, El-Dossoki F I, El-Hossiany A & Sello E A, Surf Eng Appl Electrochem, 56 (2020) 491.
  • Elgyar O A, Ouf A M, El-Hossiany A & Fouda A E A S, Biointerface Res Appl Chem, 11 (2021) 14344.
  • Fouda A S, Ahmed R E & El-Hossiany A, Prot Met Phys Chem Surfaces, 57 (2021) 398.
  • Khaled M A, Ismail M A & Fouda A E S, RSC Adv, 11 (2021) 25314.
  • El Hamdani N, Fdil R, Tourabi M, Jama C & Bentiss F, Appl Surf Sci, 357 (2015) 1294.
  • Raja P B, Qureshi A K, Rahim A A, Osman H & Awang K, Corros Sci, 69 (2013) 292.
  • Fouda A S, Abd El-Ghaffar M A, Sherif M H, El-Habab A T & El-Hossiany A, Prot Met Phys Chem Surfaces, 56 (2020) 189.
  • Rauf A & Mahdi E, Int J Electrochem Sci, 7 (2012) 4673.

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  • Mentha Piperita Extract as a Natural Product for the Corrosion Inhibition of Low Carbon Steel in a Polluted NaCl Environment : Chemical, Electrochemical and Biological Studies

Abstract Views: 121  |  PDF Views: 91

Authors

Abd El-Aziz S Fouda
Faculty of Science, Mansoura University, Mansoura-35516, Egypt
Ameena M Al-Bonayan
Faculty of Science, Umm Al-Qura University, Makkah, Saudi Arabia
Ali M Elazly
Nile Higher Institute for Engineering and Technology, EI-Mansoura, Egypt
Mohamed F Attia
Faculty of Technological Industry and Energy, Delta Technological University, Qewasnia, EI-Menoufia, Egypt

Abstract


The impact of aqueous Mentha piperita extract (MPE) as a corrosion inhibitor for low carbon steel (LCS) in NaCl/Na2S solution has been investigated using chemical and electrochemical techniques to evaluate the protection performance of MPE. ―As the concentration of the extract increased, the protection efficiency (PE) increased, reaching 91.2% at 300 ppm, whereas the increase in temperature favoured to slow decrease‖.The extract has been physically adsorbed on the metal surface according to the Temkin isotherm. Polarization data reveal that this extract acts as a mixed inhibitor. The mechanism of corrosion protection of MPE has been discussed from electrochemical techniques. MPE has been adsorbed on LCS obeying Temkin isotherm. Surface morphology techniques such as scanning electron microscopy (SEM) and atomic force microscopy have been used to demonstrate the creation of a protective coating on the LCS in the presence of MPE. The extract inhibits the bacterial activity of Escherichia coli.

Keywords


Corrosion Inhibition, Low Carbon Steel, NaCl/Na2S, Mentha Piperita Extract (MPE), Temkin Isotherm.

References