Thesis

Development of Al93Fe3Cr2Ti2/ Nano-size γ-Al2O3 Nanocomposite by Ball Milling Process

Abstract:: The strength of conventional aluminium alloys decreases rapidly above 150°C, which limits their applications at elevated temperature. Rapid solidified (RS) nanoquasicrystalline Al₉₃Fe₃Cr₂Ti₂ (at.%) alloy has previously shown outstanding mechanical performance and microstructural stability at elevated temperatures (&GT;300°C). In order to obtain an outstanding Al-based material with very high strength in a broad range of temperature, it is proposed to produce a nanocomposite consisting of nano-size ceramic particles homogenously distributed in a nanoquasicrystalline alloy matrix. The main challenges of processing nanoquasicrystalline nanocomposites in ball milling are to prevent the metastable quasicrystalline phase from decomposition and to avoid the agglomerations of nano-size γ-Al₂O₃.

[abstract continues in thesis]

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APA Style

Xu, W. (2017). Development of Al93Fe3Cr2Ti2/ Nano-size γ-Al2O3 Nanocomposite by Ball Milling Process [PhD thesis]. University of Oxford.

MLA Style

Xu, W. Development of Al93Fe3Cr2Ti2/ Nano-Size γ-Al2O3 Nanocomposite by Ball Milling Process. University of Oxford, 2017.

Chicago Style

Xu, W. 2017. “Development of Al93Fe3Cr2Ti2/ Nano-Size γ-Al2O3 Nanocomposite by Ball Milling Process.” PhD thesis, University of Oxford.
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Authors

+ Xu, W More by this author

Division:: MPLS
Department:: Materials
Department:: Materials
Role:: Author

Contributors

Department:: Materials
Role:: Supervisor

Department:: Materials
Role:: Supervisor

Type of award:: DPhil
Level of award:: Doctoral
Awarding institution:: University of Oxford

UUID:: uuid:66c2543d-5aa3-485d-8e09-1ba7a2b348ff
Deposit date:: 2017-08-23

Terms of use

Copyright holder:: Weiyue Xu
Copyright date:: 2017

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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