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Article
Corrosion inhibition of amorphous FeBSiC alloy in 1 m HCl by 3-amino-1,2,4-triazole
The mode of corrosion inhibition of amorphous FeBSiC alloy due to 3-amino-1,2,4-triazole (ATA) in molar HCl is studied through weight loss and electrochemical steady-state and transient measurements. From the ...
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Article
Corrosion and hydrogen surface embrittlement inhibition of amorphous FeBSiC alloy in molar HCl by diorthoaminodiphenyldisulphane (DOAPD)
The mode of corrosion inhibition of amorphous alloys due to diorthoaminodiphenyldisulphane (DOAPD) in molar HCl is studied through solution analysis and electrochemical steady state and transient measurements....
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Article
Electropolymerisation de monomere 3-amino-1,2,4-triazole sur une electrode de cuivre et effet du polymere sur la corrosion de l'electrode en milieu NaCl 3%
L'electropolymérisation d'un nouveau polymére a partir de 3-amino-triazole (ATA) est réalisée. L'électrolyte support était de L'eau distillée avec un mélange de méthanol et de KOH. Le microscope électronique à...
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Article
Chemical and electrochemical inhibition studies of corrosion and hydrogen surface embrittlement. II. Fe0.81B0.13Si0.04C0.02 amorphous alloy in molar HCl
The effect of diorthoaminophenoldisulfane (DOAPD) on the corrosion and hydrogen embrittlement of Fe0.81B0.13Si0.04C0.02 amorphous alloy has been studied. The amorphous state of the alloy was confirmed by X-ray an...
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Article
Chemical and electrochemical inhibition studies of corrosion and hydrogen surface embrittlement. I. Fe0.78B0.13Si0.09 amorphous alloy in molar HCl
Diorthoaminophenoldisulfane (DOAPD) was synthesized for use as a corrosion inhibitor and in order to test its effect on the hydrogen surface embrittlement of Fe0.78B0.13Si0.09 alloy. Results of electrochemical an...
