Highly oxidation-resistant Ti-Mo alloy with two-scale network Ti5Si3 reinforcement
Autor: | Yaozha Lv, Chi Zhang, Qiong Lu, Hongbo Zhang, Peizhong Feng, Wei Chen, Zhanyuan Xu, Jinglian Fan |
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Rok vydání: | 2022 |
Předmět: |
Materials science
Polymers and Plastics Mechanical Engineering Composite number Metals and Alloys Oxide Spark plasma sintering chemistry.chemical_element Temperature cycling chemistry.chemical_compound chemistry Mechanics of Materials Materials Chemistry Ceramics and Composites Thermal stability Surface layer Composite material Tin Layer (electronics) |
Zdroj: | Journal of Materials Science & Technology. 110:24-34 |
ISSN: | 1005-0302 |
Popis: | There is keen interest in using Ti alloys as lightweight structural materials for aerospace and automotive industries. However, a long-standing problem for these materials is their poor oxidation resistance. Herein, we designed and fabricated a Ti5Si3 reinforced Ti-4(wt.%)Mo composite with two-scale network architecture by low energy milling and spark plasma sintering. It displays superior oxidation resistance at 800°C owing to the in-situ formation of a multi-component surface layer. This oxide layer has a dense grain size gradient structure that consists of an outer TiO2 layer and an inner SiO2-padding-TiO2 layer, which has remarkable oxidation resistance and thermal stability. Furthermore, it was revealed that the hitherto unknown interaction between Ti5Si3 reinforcement and nitrogen during oxidation would contribute to the formation of a TiN nano-twin interface layer, which accommodates the thermal mismatch strain between the oxide layer and matrix. This, along with high adhesion, confers excellent thermal cycling life with no cracking or spallation during long-term oxidation. In this regard, the secure operating temperature of this new composite can be increased to 800°C, which provides a design pathway for a new family of Ti matrix composites for high-temperature applications. |
Databáze: | OpenAIRE |
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