Pulsed-plasma-nitrided API 5L X-65 steel: hydrogen permeability and microstructural aspects

Bott AH.; Gomez B.; Zampronio MA.; Miranda PEV.; Feugeas JN.; Bruhl SP.

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Pulsed-plasma-nitrided API 5L X-65 steel: hydrogen permeability and microstructural aspects

机译：脉冲等离子体氮化API 5L X-65钢：氢渗透性和微观结构方面

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Nitriding of an API 5L X-65 steel was performed using a low-frequency do pulsed-plasma technique. A 6 h treatment was found to produce a compact surface nitride layer composed of gamma' (Fe4N) and epsilon (Fe2-3N) nitrides with a thickness of around 2 mu m. The plasma-nitriding treatment resulted in a significant reduction in hydrogen permeability, from 2.97 x 10(-10) mol H m(-1) s(-1) (for the untreated steel) to 7.1 x 10(-11) mol H m(-1) s(-1) for electrolytic hydrogen charging via the nitrided surface. When the sample was oriented with the nitrided surface as the hydrogen-exit face, the permeability was reduced even further, to 3.9 x 10(-13) mol H m(-1) s(-1). [References: 12]

机译：使用低频脉冲等离子体技术对API 5L X-65钢进行氮化。发现6小时的处理产生了由γ′（Fe4N）和ε（Fe2-3N）氮化物组成的致密表面氮化物层，其厚度约为2μm。等离子体氮化处理导致氢渗透率显着降低，从2.97 x 10（-10）mol H m（-1）s（-1）（对于未经处理的钢）降至7.1 x 10（-11）mol H m（-1）s（-1）用于通过氮化表面进行电解氢充电。当样品以氮化表面作为氢的逸出面取向时，渗透率甚至进一步降低至3.9 x 10（-13）mol H m（-1）s（-1）。 [参考：12]

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《Journal of Physics, D. Applied Physics: A Europhysics Journal》 |1998年第24期|共6页
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Bott AH.; Gomez B.; Zampronio MA.; Miranda PEV.; Feugeas JN.; Bruhl SP.;
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正文语种 eng
中图分类应用物理学;
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1. Pulsed-plasma-nitrided API 5L X-65 steel: hydrogen permeability and microstructural aspects [J] . Bott AH., Gomez B., Zampronio MA., Journal of Physics, D. Applied Physics: A Europhysics Journal . 1998,第24期

机译：脉冲等离子体氮化API 5L X-65钢：氢渗透性和微观结构方面
2. Corrosion Rates of API 5L X-52 and X-65 Steels in Synthetic Brines and Brines with H₂S as a Function of Rate in a Rotating Cylinder Electrode [J] . A. Cervantes-Tobón, J. G. Godínez-Salcedo, J. L. González-Velázquez, International Journal of Electrochemical Science . 2014,第5期

机译：API 5L X-52和X-65钢在合成卤水和H _{2 S卤水中的腐蚀速率与旋转电极中腐蚀速率的关系}
3. Hydrogen Embrittlement of API 5L X60 and API 5L X80 Steels [J] . Araújo Bruno A, Palma Jorge A, Vilar Eudésio O, Informacion Tecnologica . 2011,第6期

机译：API 5L X60和API 5L X80钢的氢脆
4. MICROSTRUCTURAL VARIATION AT DIFFERENT LAYERS OF API 5L X80 PIPELINE STEEL THICKNESS AND ITS RELATION TO HYDROGEN DEGRADATION [C] . Enyinnaya Ohaeri, Jerzy Szpunar Materials Science Technology Conference and Exhibition . 2019

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5. BIOCHEMICAL AND BIOLOGICAL ASPECTS OF HONEY BEE (APIS MELLIFERA L.) LARVAL FOOD [D] . THRASYVOULOU, ANDREAS T. 1982

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6. Prediction of Corrosive Fatigue Life of Submarine Pipelines of API 5L X56 Steel Materials [O] . Xudong Gao, Yongbo Shao, Liyuan Xie, 2019

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7. Effect of heat treatments on the hydrogen embrittlement susceptibility of API X-65 grade line-pipe steel [O] . G Ananta Nagu, T K G Namboodhiri 2002

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Pulsed-plasma-nitrided API 5L X-65 steel: hydrogen permeability and microstructural aspects

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