Hydrogen re-embrittlement of high strength steel by corrosion of cadmium and aluminium based sacrificial coatings

C. Chaiaftris; M. J. Robinson

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Hydrogen re-embrittlement of high strength steel by corrosion of cadmium and aluminium based sacrificial coatings

机译：镉和铝基牺牲涂层的腐蚀使高强度钢氢化

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When high strength steels absorb hydrogen during corrosion of a sacrificial coating they can fail by a process termed hydrogen re-embrittlement. This paper compares the levels of re-embrittlement caused by coatings of electroplated cadmium and two possible alternative aluminium based coatings. Slow strain rate tests were performed on coated tensile specimens exposed to 3-5 percent NaCI solution or pre-exposed to a coastal marine atmosphere. Permeation experiments were used to measure the absorption of hydrogen over a range of potentials, including those typical of the corroding sacrificial coatings. The severity of re-embrittlement was shown to be controlled not only by the corrosion potential of the coating but also by its barrier properties, which can limit hydrogen uptake by the steel substrate.

机译：当高强度钢在牺牲涂层的腐蚀过程中吸收氢时，它们可能会因称为氢再包裹的过程而失效。本文比较了由电镀镉涂层和两种可能的替代铝基涂层引起的再嵌入水平。在暴露于3-5％NaCl溶液中或预先暴露在沿海海洋大气中的涂层拉伸试样上进行慢应变速率测试。渗透实验用于测量在一系列电位上的氢吸收，包括典型的腐蚀牺牲涂层。事实表明，再包埋的严重程度不仅受涂层的腐蚀潜能控制，而且还受其阻隔性能控制，后者可限制钢基材吸收氢。

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《Corrosion Engineering, Science and Technology 》 |2005年第1期| 共5页
作者
C. Chaiaftris; M. J. Robinson;
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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
Hydrogen embrittlement; Cadmium plating; Aluminium coatings; Slow strain rate test;

机译：氢脆;镀镉;铝涂层;慢应变速率测试;

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1. Hydrogen re-embrittlement of high strength steel by corrosion of cadmium and aluminium based sacrificial coatings [J] . C. Chaiaftris, M. J. Robinson Corrosion Engineering, Science and Technology . 2005 ,第1期

机译：镉和铝基牺牲涂层的腐蚀使高强度钢氢化
2. Aluminium based coatings for optimum sacrificial protection of high strength steel [J] . E. Cardilli, M. J. Robinson Corrosion Engineering, Science and Technology . 2011 ,第7期

机译：铝基涂层可为高强度钢提供最佳的牺牲保护
3. Novel corrosion protective coatings for aluminium alloys and steels based on oxidic nanoparticles [J] . Wolfram Furbeth, Hong-Quang Nguyen, Michael Schutze Zeitschrift fur Metallkunde . 2007 ,第7期

机译：基于氧化纳米粒子的新型铝合金和钢腐蚀防护涂层
4. Galvanic Corrosion Behaviour of Some Commercial Aluminium- Based and Cadmium Coatings Coupled to Steel in 3.5 NaCI Solution [C] . O.A. Fasuba, A.L. Yerokhin, A. Matthews, European corrosion congress;EUROCORR 2011 . 2012

机译：某些商品化的铝基和镉涂层在3.5％NaCl溶液中与钢的电偶腐蚀行为
5. APPLICABILITY OF CATHODIC PROTECTION IN PREVENTION OF CORROSION DAMAGE TO STEEL TENDONS IN PRESTRESSED CONCRETE (HIGH STRENGTH STEEL, HYDROGEN EMBRITTLEMENT, BRITTLE CRACKING) [D] . SCANNELL, WILLIAM THOMAS 1986

机译：阴极保护在预防预应力混凝土（高强度钢，氢脆，脆性开裂）中钢腱的腐蚀损伤中的适用性
6. Assessing corrosion resistance of two-dimensional nanomaterial-based coatings on stainless steel substrates [O] . Shakir Bin Mujib, Santanu Mukherjee, Zhongkan Ren, 2020

机译：评估不锈钢基材上二维纳米材料基涂层的耐腐蚀性
7. Hydrogen Silsesquioxane based silica glass coatings for the corrosion protection of austenitic stainless steel [O] . Lampert, Felix, Jensen, Annemette Hindhede, Din, Rameez Ud, 2018

机译：氢硅倍半氧烷基石英玻璃涂料，用于奥氏体不锈钢的腐蚀防护
8. Hydrogen-Free Electrodeposition of Cadmium Coatings on High-Strength Steel for Corrosion Protection [R] . Varma, R., Hoeller, T., Shimotake, H. 1988

机译：高强度钢表面无氢电沉积镉涂层防腐蚀

Hydrogen re-embrittlement of high strength steel by corrosion of cadmium and aluminium based sacrificial coatings

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