Your search keyword '"Su, Hangbiao"' showing total 4 results

1. Characteristics of Oxide Films on Zr702 and Their Corrosion Performance in Boiling Fluorinated Nitric Acid.

Author

Su, Hangbiao, Li, Yaning, Zhao, Yongqing, Zeng, Weidong, and Xu, Jianping

Subjects

OXIDE coating, NITRIC acid, X-ray photoelectron spectroscopy, TRANSMISSION electron microscopes, SCANNING electron microscopes

Abstract

Fluoride ions, which interfere with the oxide formation on zirconium have been over-looked until recently. The effect of fluoride ions on oxide formation and dissolution behaviors in zirconium was investigated in this study. A detailed quantitative characterization of the oxide films formed on Zr702 immersed in a fluorinated nitric acid solution was performed using X-ray photoelectron spectroscopy, high-resolution transmission electron microscopy, and representative high-angle annular dark-field scanning Transmission Electron Microscope, (TEM). The corrosion performance in a fluorinated nitric acid solution was discussed. The results reveal that the thickness of the oxide films immersed in the fluorinated nitric acid solution was between 42–48 nm, which is much thinner than that of the oxide layer (~98.85 nm thickness) in the F− free HNO3 solution. The oxide film was identified to be a nanocrystalline cluster, comprised of outermost HfO2 and HfF4 layers, sub-outer ZrO2 and ZrF4 layers, and an innermost Zr (F, O)3.6 layer. This fluoride species penetration through the oxide films indicated that the fluoride ions are responsible for the dissolution of the oxide film of Zr702. [ABSTRACT FROM AUTHOR]

Published

2024

2. Structure of the oxide film on Ti–6Ta alloy after immersion test in 8 mol/L boiling nitric acid medium

Author

Guo, Dizi, Yang, Yingli, Wu, Jinping, Zhao, Bin, Zhao, Hengzhang, Su, Hangbiao, and Lu, Yafeng

Published

2013

3. Microstructure, Mechanical Properties and Oxidation Behavior of a Hot-Extruded TiAl Containing Ta

Author

Yang Yingli, Xi Zhengping, Su Hangbiao, Luo Yuanyuan, Zeng Weidong, Wu Jinping, and Mao Xiaonan

Subjects

6111 aluminium alloy, Materials science, Alloy, Ultimate tensile strength, Metallurgy, General Engineering, engineering, 6063 aluminium alloy, Extrusion, engineering.material, Ductility, Microstructure, Tensile testing

Abstract

The microstructure, the mechanical properties and the oxidation behavior of a novel Ti-46.5Al-3Ta-2Cr-0.2W (at%) alloy after hot extrusion were investigated. The results show that the alloy is mainly composed of γ and α2 phases, which has fine near lamellar microstructure with colony sizes of 50∼70 μm after hot extrusion. The different microstructures after hot extrusion were obtained by different cooling rates, and a great amount of massive phase were found at grain boundaries by oil quenching. Tensile test results exhibit that the yield strength (YS) and ultimate tensile strength (UTS) of the alloy after hot extrusion decrease from 807 and 846 MPa at room temperature to 620 and 760 MPa at 800°C, respectively, and the elongation (EI) of the alloy increases from 2.16% at room temperature to 3% at 800°C which means that the alloy still keeps higher strength at elevated temperature. The observation of fracture surfaces shows that the crack length of the present alloy is smaller, and the additive of Ta increases the ductility of Ti-46.5Al-3Ta-2Cr-0.2W alloy at room temperature. The oxidation behavior of the novel TiAl based alloy in the experimental range was discussed. It is found that the addition of Ta can reduce the oxygen solubility into the TiAl alloy and suppress TiO2 growth at elevated temperature due to the low diffusivity.

Published

2015

4. Structure of the oxide film on Ti–6Ta alloy after immersion test in 8mol/L boiling nitric acid medium

Author

Guo, Dizi, primary, Yang, Yingli, additional, Wu, Jinping, additional, Zhao, Bin, additional, Zhao, Hengzhang, additional, Su, Hangbiao, additional, and Lu, Yafeng, additional

Published

2013