In situ surface oxidation of Ti-44Al-11Nb alloy at room temperature

P. W. Wang; J. Woo; M. Avila; J. Garcia; A. Bronson; S. K. Varma

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In situ surface oxidation of Ti-44Al-11Nb alloy at room temperature

机译：Ti-44Al-11Nb合金在室温下的原位表面氧化

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The in situ surface oxidation of polycrystalline Ti-44Al-11Nb (compositions are in atomic %) alloy was studied at room temperature in an ultrahigh vacuum (66.6 to 80.0 nPa). The native oxide of Ti-44Al-11Nb was removed by sputtering the surface using 2.8 kV argon ions and then high-purity oxygen was carefully dosed onto the aluminide surface. After each oxygen dosing the surface species, metallic states and oxidized states, were detected by X-ray photoelectron spectroscopy (XPS). After analyzing the binding energy shifts and the concentration of oxidized species, aluminum oxidized first, then titanium followed by niobium. A reaction sequence model, incorporating the rate-determining step of a dissociative adsorption of oxygen, shows to be consistent with the initial oxidation rate of the Ti-44Al-11Nb intermetallic.

机译：在室温下于超高真空（66.6至80.0 nPa）下研究了多晶Ti-44Al-11Nb（成分为原子％）合金的原位表面氧化。通过使用2.8 kV氩离子溅射表面来去除Ti-44Al-11Nb的天然氧化物，然后将高纯氧小心地加到铝化物表面上。每次给氧后，通过X射线光电子能谱（XPS）检测表面物种，金属态和氧化态。在分析了结合能移动和氧化物种的浓度之后，铝先被氧化，然后是钛，然后是铌。结合了氧离解吸附的速率确定步骤的反应序列模型显示与Ti-44Al-11Nb金属间化合物的初始氧化速率一致。

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《Journal of Materials Science》 |2003年第3期|489-497|共9页
作者
P. W. Wang; J. Woo; M. Avila; J. Garcia; A. Bronson; S. K. Varma;
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Department of Physics Bradley University;

Department of Metallurgical and Materials Engineering University of Texas at El Paso;

Department of Physics University of Texas at El Paso;

Department of Physics University of Texas at El Paso;

Department of Mechanical and Industrial Engineering University of Texas at El Paso;

Department of Metallurgical and Materials Engineering University of Texas at El Paso;

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1. In situ surface oxidation of Ti-44Al-11Nb alloy at room temperature [J] . Wang PW., Woo J., Avila M., Journal of Materials Science . 2003,第3期

机译：Ti-44Al-11Nb合金在室温下的原位表面氧化
2. Comparison of in situ oxidation between Ti-44Al and Ti-44Al-11Nb alloys below 400 ℃ [J] . J. C. Woo, S. K. Varma, P. W. Wang, Journal of Materials Science Letters . 2002,第7期

机译：400℃以下Ti-44Al和Ti-44Al-11Nb合金的原位氧化比较
3. In situ Raman spectroscopic analysis of surface oxide films on Ni-base alloy/low alloy steel dissimilar metal weld interfaces in high-temperature water [J] . Jongjin Kim, Kyung Joon Choi, Chi Bum Bahn, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2014,第1a3期

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4. IN-SITU PULSED LASER SPALLATION OF OXIDE FILMS AT HIGH TEMPERATURES: OXIDATION RATE OF BARE METAL SURFACES [C] . Symposium on high temperature corrosion and materials chemistry . 1998

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5. In situ initial oxidation of titanium-45 aluminum-44 niobium-11 and titanium-56 aluminum-44 alloys investigated by surface analyses [D] . Avila, Marco A. 2001

机译：通过表面分析研究了钛45铝44铌11和钛56铝44合金的原位初始氧化
6. In situ full-field measurement of surface oxidation on Ni-based alloy using high temperature scanning probe microscopy [O] . Yan Li, Xufei Fang, Zhe Qu, -1

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7. Influence of Gas Composition and Exposure Cycle on the Formation of Surface and Subsurface Oxides in Iron-Aluminum-Based Alloys at High Temperatures [O] . June H. Bott, Hogbin Yin, Seetharaman Sridhar, 2016

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In situ surface oxidation of Ti-44Al-11Nb alloy at room temperature

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