C.D.S. Tuck scite author profile

The electrochemical behavior of a range of Al‐Ga alloys was determined in 4M normalNaOH and 2M normalNaCl both under normal polarization conditions and in a small battery designed for viewing reacted anodes in a scanning electron microscope. The observed behavior was compared with that of gallium and Ga‐0.1% Al. It was found that the electrochemistry of Al‐Ga was controlled by that of gallium in as much as Al‐Ga alloys with low levels of gallium could only display active behavior in alkali if initially polarized below the normalGa/GaO33− reduction voltage. The activation phenomenon took place at localized surface sites associated with gallium agglomerates, a likely mechanism being rapid diffusion of aluminum through the gallium particles which seemed to prevent the normal, passive behavior of aluminum. The speed of activation after current switch‐on varied inversely with alloy gallium concentration and depended on a critical surface concentration of gallium being achieved. Back‐diffusion of gallium away from the surface strongly influenced the activating capabilities of alloys with lower levels of gallium. Cooling of activated Al‐Ga alloys resulted in deactivation caused by surface gallium solidification and passivation.

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Corrosion and Galvanic Compatibility Studies of a High-Strength Copper-Nickel Alloy

Campbell¹,

Radford²,

Tuck³

et al. 2002

CORROSION

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The embrittlement of Al-Zn-Mg and Al-Mg alloys by water vapor

Tuck¹

1985

Metall Trans A

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C.D.S. Tuck

The effect of phase compositions on the pitting corrosion of 25 Cr duplex stainless steel in chloride solutions

The role of magnesium segregation in the intergranular stress corrosion cracking of aluminium alloys

The Electrochemical Behavior of Al‐Ga Alloys in Alkaline and Neutral Electrolytes

Corrosion and Galvanic Compatibility Studies of a High-Strength Copper-Nickel Alloy

The embrittlement of Al-Zn-Mg and Al-Mg alloys by water vapor

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