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Microstructure and Isothermal Oxidation of Ir–Rh Spark Plug Electrodes

机译：Ir–Rh火花塞电极的组织和等温氧化

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High-temperature oxidation tests were performed on pure iridium, rhodium, and the iridium alloys, IrRh10, IrRh25, and IrRh40, at 1100 °C in a stable air environment for 60 h. The results of the oxidation were analyzed by X-ray photoelectron spectroscopy (XPS). Microstructural changes of the Ir–Rh alloys were characterized by scanning electron microscopy (SEM). XPS analysis results show that the main oxide of the Ir–Rh alloy in a 1100 °C environment was Rh O , and SEM analysis shows that the surfaces of the Ir–Rh alloys after oxidation formed both linear and ellipse-shaped corrosion pits, and had the same direction with the wire-drawing process. The oxidation behavior of Ir–Rh alloys, including the mass change, the reason for the mass loss, and the role of Rh in improving oxidation resistance performance, are discussed.

机译：对纯铱，铑和铱合金IrRh10，IrRh25和IrRh40进行了高温氧化试验，在1100°C的稳定空气环境中进行了60 h。通过X射线光电子能谱（XPS）分析氧化的结果。 Ir-Rh合金的显微组织变化通过扫描电子显微镜（SEM）表征。 XPS分析结果表明，在1100°C的环境中Ir-Rh合金的主要氧化物为Rh O，而SEM分析表明，氧化后的Ir-Rh合金表面既形成了线性腐蚀也形成了椭圆形腐蚀坑，并且与拉丝工艺方向相同。讨论了Ir-Rh合金的氧化行为，包括质量变化，质量损失的原因以及Rh在改善抗氧化性能中的作用。

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期刊名称 Materials
作者
Shifang Zhao; Jingyi Xia; Yimin Xia; Jianming Chen; Dekui Du; Huimu Yang; Jie Liu;
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作者单位

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年(卷),期 2019(12),19
年度 2019
页码 -1
总页数 11
原文格式 PDF
正文语种
中图分类外科学;
关键词
Ir–Rh alloy; high-temperature oxidation; spark plug; spark plug electrode;

机译：Ir-Rh合金;高温氧化;火花塞;火花塞电极;

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专利

1. Microstructure and Isothermal Oxidation of Ir–Rh Spark Plug Electrodes [J] . Shifang Zhao, Jingyi Xia, Yiming Xia, Materials . 2019,第19期

机译：Ir–Rh火花塞电极的组织和等温氧化
2. An Analysis of Laser-Welded Nicr-Ir and Nicr-Pt Micro Joints on Spark Plug Electrodes in Biogas-Fuelled Engines [J] . Sz. Tofil, W. Napad?ek Archives of Metallurgy and Materials . 2016,第2期

机译：沼气发动机火花塞电极上激光焊接的Nicr-Ir和Nicr-Pt微型接头的分析
3. An Analysis of Laser-Welded Nicr-Ir and Nicr-Pt Micro Joints on Spark Plug Electrodes in Biogas-Fuelled Engines [J] . Sz. Tofil, W. Napad?ek Archives of Metallurgy and Materials . 2016,第2期

机译：沼气发动机火花塞电极上激光焊接的Nicr-Ir和Nicr-Pt微型接头的分析
4. A study of the effects of spark plug electrode design on 4-cycle spark- ignition engine performance [C] . Y. G. Lee, D. A. Grimes, J. T. Boehler, SAE World Congress, Detroit . 2001

机译：火花塞电极设计对4周期火花点火发动机性能影响的研究
5. Effect of spark plug ground electrode geometry on exhaust emissions of small utility engines. [D] . Rahi, Mahmood Ahmed Akhter. 1998

机译：火花塞接地电极的几何形状对小型多用途发动机废气排放的影响。
6. Microstructures and Isothermal Oxidation of the Alumina Scale Forming Nb1.45Si2.7Ti2.25Al3.25Hf0.35 and Nb1.35Si2.3Ti2.3Al3.7Hf0.35 Alloys [O] . Mohammad Ghadyani, Claire Utton, Panos Tsakiropoulos 2019

机译：形成Nb1.45Si2.7Ti2.25Al3.25Hf0.35和Nb1.35Si2.3Ti2.3Al3.7Hf0.35合金的氧化铝鳞的微观结构和等温氧化
7. Microstructure and Isothermal Oxidation of Ir–Rh Spark Plug Electrodes [O] . 2019

机译：IR-RH火花塞电极的微观结构和等温氧化
8. RESEARCH TO DEVELOP IMPROVED SPARK PLUG CLEANING METHODS WITH PARTICULAR EMPHASIS ON CLEANING OF FINE-WIRE (PLATINUM ELECTRODE) SPARK PLUGS [R] . 1953

机译：研究开发改进的spaRK pLUG清洁方法，特别是清洁细线（铂电极）火花塞

Microstructure and Isothermal Oxidation of Ir–Rh Spark Plug Electrodes

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