Size and structure evolution of yttria in ODS ferritic alloy powder during mechanical milling and subsequent annealing

Oxide dispersion strengthening ferritic steels are fascinating materials for future high temperature energy production technologies. Mechanical milling with the aim of a fine dispersion of oxides in the metal matrix becomes the main process for the production of ODS steels. The mixed powder which is...

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Published inPowder technology Vol. 217; pp. 281 - 287
Main Authors Dai, Lei, Liu, Yongchang, Dong, Zhizhong
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.02.2012
Elsevier
Subjects
alloys
Annealing
Applied sciences
Austenitic stainless steels
Chemical engineering
chromium
Dispersion hardening alloys
energy
Evolution
Exact sciences and technology
Ferritic alloy
Ferritic stainless steels
Heat resistant steels
iron
Mechanical milling
microstructure
milling
Miscellaneous
Nanocrystalline
Nanocrystals
Nanostructure
Oxide dispersion strengthening
Oxides
particle size
plastic deformation
Solid-solid systems
temperature
transmission electron microscopy
vibration
Yttrium oxide
Nanostructure
Mechanical milling
Ferritic alloy
Oxide dispersion strengthening
Nanocrystalline
Grain size
Strengthening
Particle size
Annealing
Vibration
Plastic deformation
Steel
Rotation
Dispersion
Powder
Transmission electron microscopy
Production
Microstructure
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Abstract Oxide dispersion strengthening ferritic steels are fascinating materials for future high temperature energy production technologies. Mechanical milling with the aim of a fine dispersion of oxides in the metal matrix becomes the main process for the production of ODS steels. The mixed powder which is composed of iron, chromium and yttria (Fe-9Cr-15%Y2O3) was mechanically milled for a maximum period of 100h. Size and structure evolution of Y2O3 and the microstructure changes of the mixed powder during mechanical milling and subsequent annealing were studied. The powder is fractured and welded with rotation and vibration of container during mechanical milling. The results show that the particle size and the grain size decrease with increasing milling time. Nanocrystalline of Y2O3 is gradually formed by severe plastic deformation. It can be explained that the long-range order structure of Y2O3 is damaged by mechanical milling. The formation processes of nanocrystalline in ordered oxides may follow the sequence: ordered phase→disordered phase (loss of long-range order)→fine-grained (nanocrystalline) phase. Growth of nanocrystalline Y2O3 occurs at about 891K during subsequent annealing and the nanostructure of Y2O3 after mechanical milling and annealing was observed by TEM and HRTEM. [Display omitted] ► Y2O3 still remains in the milled powders. ► The combination between yttrium atoms and oxygen atoms isn't fractured by MM. ► Y2O3 exists in nanocrystalline after MM. ► Growth of nanocrystalline Y2O3 has occurred during subsequent annealing.
AbstractList Oxide dispersion strengthening ferritic steels are fascinating materials for future high temperature energy production technologies. Mechanical milling with the aim of a fine dispersion of oxides in the metal matrix becomes the main process for the production of ODS steels. The mixed powder which is composed of iron, chromium and yttria (Fe-9Cr-15%Y2O3) was mechanically milled for a maximum period of 100h. Size and structure evolution of Y2O3 and the microstructure changes of the mixed powder during mechanical milling and subsequent annealing were studied. The powder is fractured and welded with rotation and vibration of container during mechanical milling. The results show that the particle size and the grain size decrease with increasing milling time. Nanocrystalline of Y2O3 is gradually formed by severe plastic deformation. It can be explained that the long-range order structure of Y2O3 is damaged by mechanical milling. The formation processes of nanocrystalline in ordered oxides may follow the sequence: ordered phase→disordered phase (loss of long-range order)→fine-grained (nanocrystalline) phase. Growth of nanocrystalline Y2O3 occurs at about 891K during subsequent annealing and the nanostructure of Y2O3 after mechanical milling and annealing was observed by TEM and HRTEM. [Display omitted] ► Y2O3 still remains in the milled powders. ► The combination between yttrium atoms and oxygen atoms isn't fractured by MM. ► Y2O3 exists in nanocrystalline after MM. ► Growth of nanocrystalline Y2O3 has occurred during subsequent annealing.
Oxide dispersion strengthening ferritic steels are fascinating materials for future high temperature energy production technologies. Mechanical milling with the aim of a fine dispersion of oxides in the metal matrix becomes the main process for the production of ODS steels. The mixed powder which is composed of iron, chromium and yttria (Fe-9Cr-15%Y2O3) was mechanically milled for a maximum period of 100h. Size and structure evolution of Y2O3 and the microstructure changes of the mixed powder during mechanical milling and subsequent annealing were studied. The powder is fractured and welded with rotation and vibration of container during mechanical milling. The results show that the particle size and the grain size decrease with increasing milling time. Nanocrystalline of Y2O3 is gradually formed by severe plastic deformation. It can be explained that the long-range order structure of Y2O3 is damaged by mechanical milling. The formation processes of nanocrystalline in ordered oxides may follow the sequence: ordered phasea'disordered phase (loss of long-range order)a'fine-grained (nanocrystalline) phase. Growth of nanocrystalline Y2O3 occurs at about 891K during subsequent annealing and the nanostructure of Y2O3 after mechanical milling and annealing was observed by TEM and HRTEM.
Oxide dispersion strengthening ferritic steels are fascinating materials for future high temperature energy production technologies. Mechanical milling with the aim of a fine dispersion of oxides in the metal matrix becomes the main process for the production of ODS steels. The mixed powder which is composed of iron, chromium and yttria (Fe-9Cr-15%Y₂O₃) was mechanically milled for a maximum period of 100h. Size and structure evolution of Y₂O₃ and the microstructure changes of the mixed powder during mechanical milling and subsequent annealing were studied. The powder is fractured and welded with rotation and vibration of container during mechanical milling. The results show that the particle size and the grain size decrease with increasing milling time. Nanocrystalline of Y₂O₃ is gradually formed by severe plastic deformation. It can be explained that the long-range order structure of Y₂O₃ is damaged by mechanical milling. The formation processes of nanocrystalline in ordered oxides may follow the sequence: ordered phase→disordered phase (loss of long-range order)→fine-grained (nanocrystalline) phase. Growth of nanocrystalline Y₂O₃ occurs at about 891K during subsequent annealing and the nanostructure of Y₂O₃ after mechanical milling and annealing was observed by TEM and HRTEM.
Author Dai, Lei
Dong, Zhizhong
Liu, Yongchang
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Keywords Nanostructure
Mechanical milling
Ferritic alloy
Oxide dispersion strengthening
Nanocrystalline
Grain size
Strengthening
Particle size
Annealing
Vibration
Plastic deformation
Steel
Rotation
Dispersion
Powder
Transmission electron microscopy
Production
Microstructure
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Snippet Oxide dispersion strengthening ferritic steels are fascinating materials for future high temperature energy production technologies. Mechanical milling with...
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SubjectTerms alloys
Annealing
Applied sciences
Austenitic stainless steels
Chemical engineering
chromium
Dispersion hardening alloys
energy
Evolution
Exact sciences and technology
Ferritic alloy
Ferritic stainless steels
Heat resistant steels
iron
Mechanical milling
microstructure
milling
Miscellaneous
Nanocrystalline
Nanocrystals
Nanostructure
Oxide dispersion strengthening
Oxides
particle size
plastic deformation
Solid-solid systems
temperature
transmission electron microscopy
vibration
Yttrium oxide
Title Size and structure evolution of yttria in ODS ferritic alloy powder during mechanical milling and subsequent annealing
URI https://dx.doi.org/10.1016/j.powtec.2011.10.039
https://search.proquest.com/docview/1019621053
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