Ethylene glycol solution magnesium alloys

Magnesium alloys should have a similar corrosion behaviour to that of pure magnesium in an ethylene glycol solution. This has been eonfirmed by Fekry and Fatayerji s systematic study [30], which is briefly deseribed as follows. 

Although the corrosion of pure magnesium in commercial coolants has been reported [9,31], in practice, an engine block cannot be made of pure magnesium, and the coolant cannot be pure ethylene glycol solution only. Therefore, it is important to understand the corrosion behaviour of magnesium alloys in commercial coolants. 

The inhibition effect of fluorides has also recently been observed on AZ91 in an ethylene glycol solution [30]. However, the effect is not as evident as on pure magnesium. This could be due to the content of alnminium in the alloy. Fluorides cannot inhibit the dissolution of aluminium. 

The likely mechanism of the inhibitive effect of KF on AM-SCl is similar to that for pure magnesium and AZ91D in a fluoride-containing ethylene glycol solution, i.e. fluorides react with magnesium in the matrix of AM-SCl alloy, forming a low-solubility magnesium fluoride product which deposits on the alloy surface and prevents further corrosion attack to the alloy. 

E. Slavcheva, G. Petkova, P. Andreev, Inhibition of corrosion of AZ91 magnesium alloy in ethylene glycol solution in presence of chloride anions . Materials and Corrosion 56 (2005) 83-87. 

A-(2-AMINOETHYL) PIPERAZINE (140-31-8) Combustible liquid (flash point 199°F/ 93°C). Aqueous solution is a strong base. Incompatible with strong oxidizers, organic anhydrides, acrylates, alcohols, aldehydes, alkylene oxides, substituted allyls, cellulose nitrate, cresols, caprolactam solution, epichlorohydrin, ethylene dichloride, isocyanates, ketones, glycols, nitrates, phenols, vinyl acetate. Exothermic decomposition with maleic anhydride. May increase the explosive sensitivity of nitromethane. Attacks aluminum, copper, magnesium, nickel, zinc, or their alloys, and galvanized steel. 

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