Microstructural evolution and high-temperature oxidation mechanisms of a Ti-Mo-Si composite

Lu Qiong; Hao Yanan; Wang Yuanyuan; Feng Peizhong; Fan Jinglian

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Microstructural evolution and high-temperature oxidation mechanisms of a Ti-Mo-Si composite

机译：Ti-Mo-Si复合材料的微观组织演变和高温氧化机理

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摘要

The objective of this study was to improve the safety working temperature of Ti alloy by developing a new Ti-Mo-Si composite. After SPS sintering, the Ti-Mo-Si composite in situ formed beta-Ti, alpha-Ti, Ti5Si3, and TiC phases. During oxidation, the composite followed parabolic oxidation kinetics. A dense multi-layered structured oxide layer that consists of TiO2(I)/mixed SiO2 and TiO2(II) was formed on the surface of the matrix with a grain size that gradually decreased after 120 h of oxidation. The amorphous SiO2 sealed the clearances between the TiO2 grains, which provided the oxide layer with a self-healing ability. This type of oxide layer caused an increase in the antioxidant temperature of the matrix to 900 degrees C for 120 h.

机译：这项研究的目的是通过开发一种新型的Ti-Mo-Si复合材料来提高Ti合金的安全工作温度。 SPS烧结后，Ti-Mo-Si复合材料在原位形成β-Ti，α-Ti，Ti5Si3和TiC相。在氧化过程中，复合材料遵循抛物线氧化动力学。由TiO2（I）/混合SiO2和TiO2（II）组成的致密多层结构氧化物层形成于基体表面，其晶粒尺寸在氧化120小时后逐渐减小。非晶态SiO2密封了TiO2晶粒之间的间隙，这为氧化物层提供了自愈能力。这种类型的氧化物层导致基质的抗氧化剂温度在120小时内升高到900摄氏度。

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来源
《Corrosion science》 |2019年第12期|108180.1-108180.8|共8页
作者
Lu Qiong; Hao Yanan; Wang Yuanyuan; Feng Peizhong; Fan Jinglian;
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作者单位

Cent S Univ State Key Lab Powder Met Changsha 410083 Hunan Peoples R China;

China Univ Min & Technol Sch Mat Sci & Engn Xuzhou 221116 Jiangsu Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Titanium composite; Oxidation kinetics; Oxidation mechanisms; EPMA; TEM;

机译：钛复合材料氧化动力学;氧化机理;EPMA;透射电镜;

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Microstructural evolution and high-temperature oxidation mechanisms of a Ti-Mo-Si composite

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