Corrosion action and passivation mechanism of magnesium alloy in fluoride solution

Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy（SEM）, energy dispersive X-ray spectroscopy（EDS）, and electrochemistry methods. The results show that an insoluble MgF2 fihn is generated on the surface of magnesiu...

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Published in	Transactions of Nonferrous Metals Society of China Vol. 19; no. 1; pp. 50 - 54
Main Author	李建中黄久贵田彦文刘常升
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.02.2009 Steel Sheet Cold Rolling Plant, Baosteel Branch, Baosteel Co., Ltd., Shanghai 200431, China%Steel Sheet Cold Rolling Plant, Baosteel Branch, Baosteel Co., Ltd., Shanghai 200431, China%School of Metallurgy and Materials, Northeastern University, Shenyang 110004, China School of Metallurgy and Materials, Northeastern University, Shenyang 110004, China
Subjects	corrosion fluoride magnesium alloy nickel sulfate passive film 硫酸镍金属腐蚀镁合金 fluoride magnesium alloy corrosion nickel sulfate passive film
Online Access	Get full text
ISSN	1003-6326
DOI	10.1016/S1003-6326(08)60227-7

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Abstract	Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy（SEM）, energy dispersive X-ray spectroscopy（EDS）, and electrochemistry methods. The results show that an insoluble MgF2 fihn is generated on the surface of magnesium alloy activated in the hydrofluoric acid. And the mass of the deposited MgF2 film may reach a constant value, when the mass ratio of Mg/F on the magnesium alloy surface is fixed at 11.3：1. The activated magnesium alloy gains a ＇passivation state＇ in a mixture of sulfuric acid and hydrofluoric acid at a volume ratio of less than 1.2. At the same time the mass of magnesium alloy is maintained as a function of the time. When the ratio is above 1.4, the mass of magnesium alloy rapidly decreases. The passive film formed through adsorption of HF2- （or H2F3, H3F4-） ions by the deposited MgF2 film can protect the magnesium alloy from corrosion in fluoride solution, but not in non-fluoride solutions. The passive state is maintained for activated magnesium alloy in an acidic sulfuric nickel solution with added fluoride. If fluoride and carbonate are added to the acidic sulfuric nickel solution, a replacement reaction between magnesium alloy and solution takes place.
AbstractList	TG1; Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy(SEM), energy dispersive X-ray spectroscopy(EDS), and electrochemistry methods. The results show that an insoluble MgF2 film is generated on the surface of magnesium alloy activated in the hydrofluoric acid. And the mass of the deposited MgF2 film may reach a constant value, when the mass ratio of Mg/F on the magnesium alloy surface is fixed at 11.3-1. The activated magnesium alloy gains a 'passivation state' in a mixture of sulfuric acid and hydrofluoric acid at a volume ratio of less than 1.2. At the same time the mass of magnesium alloy is maintained as a function of the time. When the ratio is above 1.4, the mass of magnesium alloy rapidly decreases. The passive film formed through adsorption of HF2- (or H2F3-, H3F4-) ions by the deposited MgF2 film can protect the magnesium alloy from corrosion in fluoride solution, but not in non-fluoride solutions. The passive state is maintained for activated magnesium alloy in an acidic sulfuric nickel solution with added fluoride. If fluoride and carbonate are added to the acidic sulfuric nickel solution, a replacement reaction between magnesium alloy and solution takes place. Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy(SEM), energy dispersive X-ray spectroscopy(EDS), and electrochemistry methods. The results show that an insoluble MgF2 film is generated on the surface of magnesium alloy activated in the hydrofluoric acid. And the mass of the deposited MgF2 film may reach a constant value, when the mass ratio of Mg/F on the magnesium alloy surface is fixed at 11.3:1. The activated magnesium alloy gains a 'passivation state' in a mixture of sulfuric acid and hydrofluoric acid at a volume ratio of less than 1.2. At the same time the mass of magnesium alloy is maintained as a function of the time. When the ratio is above 1.4, the mass of magnesium alloy rapidly decreases. The passive film formed through adsorption of HF2- (or H2F3-, H3F4-) ions by the deposited MgF2 film can protect the magnesium alloy from corrosion in fluoride solution, but not in non-fluoride solutions. The passive state is maintained for activated magnesium alloy in an acidic sulfuric nickel solution with added fluoride. If fluoride and carbonate are added to the acidic sulfuric nickel solution, a replacement reaction between magnesium alloy and solution takes place. Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy（SEM）, energy dispersive X-ray spectroscopy（EDS）, and electrochemistry methods. The results show that an insoluble MgF2 fihn is generated on the surface of magnesium alloy activated in the hydrofluoric acid. And the mass of the deposited MgF2 film may reach a constant value, when the mass ratio of Mg/F on the magnesium alloy surface is fixed at 11.3：1. The activated magnesium alloy gains a ＇passivation state＇ in a mixture of sulfuric acid and hydrofluoric acid at a volume ratio of less than 1.2. At the same time the mass of magnesium alloy is maintained as a function of the time. When the ratio is above 1.4, the mass of magnesium alloy rapidly decreases. The passive film formed through adsorption of HF2- （or H2F3, H3F4-） ions by the deposited MgF2 film can protect the magnesium alloy from corrosion in fluoride solution, but not in non-fluoride solutions. The passive state is maintained for activated magnesium alloy in an acidic sulfuric nickel solution with added fluoride. If fluoride and carbonate are added to the acidic sulfuric nickel solution, a replacement reaction between magnesium alloy and solution takes place. Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy(SEM), energy dispersive X-ray spectroscopy(EDS), and electrochemistry methods. The results show that an insoluble MgF 2 film is generated on the surface of magnesium alloy activated in the hydrofluoric acid. And the mass of the deposited MgF 2 film may reach a constant value, when the mass ratio of Mg/F on the magnesium alloy surface is fixed at 11.3:1. The activated magnesium alloy gains a ‘passivation state’ in a mixture of sulfuric acid and hydrofluoric acid at a volume ratio of less than 1.2. At the same time the mass of magnesium alloy is maintained as a function of the time. When the ratio is above 1.4, the mass of magnesium alloy rapidly decreases. The passive film formed through adsorption of HF 2 − (or H 2F 3 −, H 3F 4 −) ions by the deposited MgF 2 film can protect the magnesium alloy from corrosion in fluoride solution, but not in non-fluoride solutions. The passive state is maintained for activated magnesium alloy in an acidic sulfuric nickel solution with added fluoride. If fluoride and carbonate are added to the acidic sulfuric nickel solution, a replacement reaction between magnesium alloy and solution takes place.
Author	李建中黄久贵田彦文刘常升
AuthorAffiliation	School of Metallurgy and Materials, Northeastern University, Shenyang I 10004, China Steel Sheet Cold Rolling Plant, Baosteel Branch, Baosteel Co., Ltd., Shanghai 200431, China
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Snippet	Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy（SEM）, energy... Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy(SEM), energy... TG1; Corrosion action and passive mechanism of magnesium alloy in the fluoride solution were studied by means of scanning electron microscopy(SEM), energy...
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Title	Corrosion action and passivation mechanism of magnesium alloy in fluoride solution
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