Oxide film thickening on the surface of iron-chromium alloys in relation to anion type and concentration

J.M. Abd El Kader, F.M. Abd El Wahab, M.G.A. Khedr, A.M. Shams El Din
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引用次数: 6

Abstract

The variation with time of the open circuit potentials of four FeCr alloys of increasing Cr content is followed in strongly aerated solutions of Cl, Br, I, NO3, SO4−−, WO4−−, CrO4−−, and H2PO4 of varying molarities, till the attainment of steady state values.

Difference in behaviour is noted between Alloy I (7% Cr) and the other three Alloys (⩾ 13% Cr). With Alloy I, film thickening is noted only in very dilute salt solutions, whilst film destruction and dissolution operates in more concentrated media. With the three other alloys film formation describes the behaviour. Film thickening in all solutions follows a direct logarithmic law, with rates depending on the nature of anion in solution, and alloy composition. The action of the various anions is specific. In solution of the same anion the thickness of the oxide film increases with the Cr content of the alloy. Phosphate solutions produce significantly thicker passivating films.

The behaviour of the FeCr alloys in CrO42− solutions is unexpected. Whilst passivation is expected, the changes in potential denote film destruction.

The steady-state potentials measured in solutions of equimolar concentrations of the various anions are not the same. These potentials tend towards more negative values with the increase of anion-content of the solution. Under otherwise the same conditions, the steady-state potentials tend towards nobler values with the increase of the Cr-content of the alloys.

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铁铬合金表面氧化膜增厚与阴离子类型和浓度的关系
四种Fe开路电位随时间的变化Cr含量增加的Cr合金在不同摩尔浓度的Cl−、Br−、I−、NO3−、SO4−、WO4−、CrO4−和H2PO4−的强充气溶液中进行,直到达到稳态值。合金I(7%Cr)和其他三种合金(13%Cr)的性能存在差异。对于合金I,薄膜增厚仅在非常稀的盐溶液中出现,而薄膜破坏和溶解则在更浓的介质中发生。与其他三种合金的成膜行为进行了描述。所有溶液中的膜增稠遵循直接对数定律,速率取决于溶液中阴离子的性质和合金成分。各种阴离子的作用是特定的。在相同阴离子的溶液中,氧化膜的厚度随着合金中Cr含量的增加而增加。磷酸盐溶液可产生明显较厚的钝化膜。Fe的行为CrO42−溶液中的Cr合金是出乎意料的。虽然钝化是意料之中的事,但电位的变化表示薄膜被破坏。在等摩尔浓度的各种阴离子的溶液中测量的稳态电势是不相同的。随着溶液中阴离子含量的增加,这些电位趋于负值。在其他相同条件下,随着合金Cr含量的增加,稳态电位趋于更高的值。
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