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W3121342143 endingPage "13" @default.
W3121342143 startingPage "1" @default.
W3121342143 abstract "According to the literature, the works on the inhibition of aluminum alloy corrosion using naturally occurring compounds are limited. For this, the inhibiting effect of oil mill liquid by-product (OMW) on the corrosion of 3003 aluminum alloy (AA3003) in molar hydrochloric acid solution was evaluated using electrochemical techniques. In parallel, a computational approach based on DFT/B3LYP and Monte Carlo methods was used to understand the inhibition process under electronic and atomic scales, respectively. The experimental results reveal that OMW has a good inhibiting effect on the corrosion of AA3003 alloy in the tested solution and acts as a cathodic inhibitor. The inhibitory efficiency increases by increasing OMW concentration to attain 89% at 6.0 ppm. The effect of temperature shows that the inhibition efficiency of OMW decreases with temperature rising. Nevertheless, a good prevention capacity of 83% is obtained at 338 K. Such interesting achieved protection property was attributed to the adsorption of OMW constituents onto the alloy surface via a mixed physichemisorption process. This process is found to obey the Langmuir adsorption isotherm. Furthermore, the activation thermodynamic parameters of the corrosion process of AA3003 alloy were also determined and discussed. The computational outcomes outlined the ability of the OMW components to interact favorably with the metal surface, hence the formation of a protective layer, which justified the observed inhibition behaviors. Conferring to the present study, OMW can be used as a good green corrosion inhibitor for AA3003 alloy in the acidic medium." @default.
W3121342143 created "2021-02-01" @default.
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W3121342143 creator A5059712550 @default.
W3121342143 creator A5063152023 @default.
W3121342143 date "2021-01-27" @default.
W3121342143 modified "2023-09-25" @default.
W3121342143 title "Corrosion Inhibition of 3003 Aluminum Alloy in Molar Hydrochloric Acid Solution by Olive Oil Mill Liquid By-Product" @default.
W3121342143 cites W113681869 @default.
W3121342143 cites W1808727419 @default.
W3121342143 cites W1818423273 @default.
W3121342143 cites W1833894148 @default.
W3121342143 cites W1964583292 @default.
W3121342143 cites W1967872927 @default.
W3121342143 cites W1967889468 @default.
W3121342143 cites W1970878225 @default.
W3121342143 cites W1974952064 @default.
W3121342143 cites W1977088992 @default.
W3121342143 cites W1987986863 @default.
W3121342143 cites W1989750184 @default.
W3121342143 cites W1996179366 @default.
W3121342143 cites W1997005341 @default.
W3121342143 cites W2000974558 @default.
W3121342143 cites W2006441761 @default.
W3121342143 cites W2007390312 @default.
W3121342143 cites W2009561911 @default.
W3121342143 cites W2009875797 @default.
W3121342143 cites W2011286463 @default.
W3121342143 cites W2014830813 @default.
W3121342143 cites W2015262389 @default.
W3121342143 cites W2020652685 @default.
W3121342143 cites W2022149064 @default.
W3121342143 cites W2022703125 @default.
W3121342143 cites W2022914479 @default.
W3121342143 cites W2025287647 @default.
W3121342143 cites W2026450161 @default.
W3121342143 cites W2029486655 @default.
W3121342143 cites W2032935140 @default.
W3121342143 cites W2038817840 @default.
W3121342143 cites W2041241598 @default.
W3121342143 cites W2042838992 @default.
W3121342143 cites W2044310923 @default.
W3121342143 cites W2047914792 @default.
W3121342143 cites W2047937197 @default.
W3121342143 cites W2049070753 @default.
W3121342143 cites W2057270270 @default.
W3121342143 cites W2058041716 @default.
W3121342143 cites W2061063426 @default.
W3121342143 cites W2070240032 @default.
W3121342143 cites W2070412477 @default.
W3121342143 cites W2072718118 @default.
W3121342143 cites W2076809738 @default.
W3121342143 cites W2078816428 @default.
W3121342143 cites W2082308347 @default.
W3121342143 cites W2083377089 @default.
W3121342143 cites W2086467924 @default.
W3121342143 cites W2086708818 @default.
W3121342143 cites W2089250048 @default.
W3121342143 cites W2093116206 @default.
W3121342143 cites W2097257366 @default.
W3121342143 cites W2103941722 @default.
W3121342143 cites W2110772210 @default.
W3121342143 cites W2117065547 @default.
W3121342143 cites W2120938868 @default.
W3121342143 cites W2157605579 @default.
W3121342143 cites W2334597258 @default.
W3121342143 cites W2346338968 @default.
W3121342143 cites W2413125488 @default.
W3121342143 cites W2460768325 @default.
W3121342143 cites W2475826740 @default.
W3121342143 cites W2519176378 @default.
W3121342143 cites W2552781279 @default.
W3121342143 cites W2604185056 @default.
W3121342143 cites W2730046375 @default.
W3121342143 cites W2754507905 @default.
W3121342143 cites W2779637161 @default.
W3121342143 cites W2791848510 @default.
W3121342143 cites W2795793876 @default.
W3121342143 cites W2799575121 @default.
W3121342143 cites W2805752666 @default.
W3121342143 cites W2854361726 @default.
W3121342143 cites W2896938335 @default.
W3121342143 cites W2897116080 @default.
W3121342143 cites W2949589418 @default.
W3121342143 cites W2950617169 @default.
W3121342143 cites W3017246275 @default.
W3121342143 cites W3029196983 @default.
W3121342143 cites W3032926839 @default.
W3121342143 cites W3048470536 @default.
W3121342143 cites W782995718 @default.
W3121342143 doi "https://doi.org/10.1155/2021/6662395" @default.
W3121342143 hasPublicationYear "2021" @default.