Improving corrosion resistance of magnesium-based alloys by surface modification with hydrogen by electrochemical ion reduction (EIR) and by plasma immersion ion implantation (PIII)

A. Bakkar; V. Neubert

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Improving corrosion resistance of magnesium-based alloys by surface modification with hydrogen by electrochemical ion reduction (EIR) and by plasma immersion ion implantation (PIII)

机译：通过氢通过电化学离子还原（EIR）和等离子浸入离子注入（PIII）进行的表面改性，提高镁基合金的耐腐蚀性

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Magnesium-based hydrides are well known that they have a high hydrogen-storage capacity. In this study, two different methods have been provided for hydrogen surface modification of high purity magnesium (hp Mg) and AZ91 magnesium alloy. One was electrochemical ion reduction (EIR) of hydrogen from an alkaline electrolyte on such Mg-based cathode. The other was plasma immersion ion implantation (PIII or PI~3) into Mg-based substrate. The depth profile of H-modified surfaces was described by Auger electron spectroscopy (AES) and by secondary ion mass spectrometry (SIMS) measurements. Corrosion testing was carried out in Avesta cell by potentiodynamic polarisation in chloride-containing aqueous solutions of pH 7 and pH 12. A greatly significant improvement in the corrosion resistance of H-modified surfaces was verified.

机译：众所周知，镁基氢化物具有很高的储氢能力。在这项研究中，提供了两种不同的方法对高纯度镁（hp Mg）和AZ91镁合金进行氢表面改性。一种是在这种基于Mg的阴极上从碱性电解质中将氢进行电化学离子还原（EIR）。另一种是将等离子体浸没离子注入（PIII或PI〜3）到基于Mg的衬底中。通过俄歇电子能谱（AES）和二次离子质谱（SIMS）测量来描述H改性表面的深度分布。在Avesta电池中，通过在pH 7和pH 12的含氯化物水溶液中进行电位动力学极化，进行了腐蚀试验。证实了H改性表面的耐蚀性有了很大的提高。

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来源
《Corrosion science》 |2005年第5期|p.1211-1225|共15页
作者
A. Bakkar; V. Neubert;
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作者单位

Institut fuer Materialpruefung und Werkstofftechnik, Dr. Doelling+Dr, Neubert GmbH, Freiberger Strasse 1, 38678 Clausthal, Germany;

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原文格式 PDF
正文语种 eng
中图分类金属腐蚀与保护、金属表面处理;
关键词
magnesium alloys; MgH_2; ion implantation; AES; SIMS; corrosion;

机译：镁合金;MgH_2;离子注入;AES;SIMS;腐蚀;

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机译：钴等离子体浸没离子注入和沉积对镍电池电极的表面改性

Improving corrosion resistance of magnesium-based alloys by surface modification with hydrogen by electrochemical ion reduction (EIR) and by plasma immersion ion implantation (PIII)

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