Precipitation behavior of Widmanstätten O phase associated with interface in aged Ti2AlNb-based alloys

Ti2AlNb-based alloys, spark plasma sintered from ball-milled octahedral Ti-22Al-25Nb powder, are aged for 0–3 h in this study. Ball milling tunes the morphology of primary orthorhombic (O) phase to be columnar, and improves the mechanical properties of the alloys. The evolution of the Widmanstätten...

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Published inMaterials characterization Vol. 145; no. C; pp. 413 - 422
Main Authors Cai, Qi, Li, Mengchen, Zhang, Yaran, Liu, Yongchang, Ma, Zongqing, Li, Chong, Li, Huijun
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.11.2018
Elsevier
Subjects
Ageing
Ball milling
Hardness
Interface
Ti2AlNb alloys
Ball milling
Hardness
Ageing
Ti2AlNb alloys
Interface
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Abstract Ti2AlNb-based alloys, spark plasma sintered from ball-milled octahedral Ti-22Al-25Nb powder, are aged for 0–3 h in this study. Ball milling tunes the morphology of primary orthorhombic (O) phase to be columnar, and improves the mechanical properties of the alloys. The evolution of the Widmanstätten O phase, which brought main precipitation strengthening effect, is then investigated during the ageing process. The hardness of the alloys is improved by an increasing content of O phase and the reduced width of the Widmanstätten O phase; in addition, the length of Widmanstätten O phase also brings positive effect on the hardness, which indicates that the hardness is strongly coupled with the interface of the Widmanstätten O precipitates and B2 matrix. By means of transmission electron microscopy observation, the precipitation of O initials with an amorphous state, followed by a coherent interface between (110)B2 and (002)O, which is destroyed to be semi-coherent and incoherent during the next ageing stage. [Display omitted] •Ball milling tunes the morphology of primary O phase in Ti2AlNb alloys.•The interface of Widmanstatten B2 and O affects the hardness of the alloys.•The entire precipitation process of Widmanstatten O phase is reported.
AbstractList Ti2AlNb-based alloys, spark plasma sintered from ball-milled octahedral Ti-22Al-25Nb powder, are aged for 0–3 h in this study. Ball milling tunes the morphology of primary orthorhombic (O) phase to be columnar, and improves the mechanical properties of the alloys. The evolution of the Widmanstätten O phase, which brought main precipitation strengthening effect, is then investigated during the ageing process. The hardness of the alloys is improved by an increasing content of O phase and the reduced width of the Widmanstätten O phase; in addition, the length of Widmanstätten O phase also brings positive effect on the hardness, which indicates that the hardness is strongly coupled with the interface of the Widmanstätten O precipitates and B2 matrix. By means of transmission electron microscopy observation, the precipitation of O initials with an amorphous state, followed by a coherent interface between (110)B2 and (002)O, which is destroyed to be semi-coherent and incoherent during the next ageing stage. [Display omitted] •Ball milling tunes the morphology of primary O phase in Ti2AlNb alloys.•The interface of Widmanstatten B2 and O affects the hardness of the alloys.•The entire precipitation process of Widmanstatten O phase is reported.
Author Ma, Zongqing
Li, Huijun
Cai, Qi
Zhang, Yaran
Li, Mengchen
Li, Chong
Liu, Yongchang
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BackLink https://www.osti.gov/biblio/1701861$$D View this record in Osti.gov
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Hardness
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Ti2AlNb alloys
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Snippet Ti2AlNb-based alloys, spark plasma sintered from ball-milled octahedral Ti-22Al-25Nb powder, are aged for 0–3 h in this study. Ball milling tunes the...
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StartPage 413
SubjectTerms Ageing
Ball milling
Hardness
Interface
Ti2AlNb alloys
Title Precipitation behavior of Widmanstätten O phase associated with interface in aged Ti2AlNb-based alloys
URI https://dx.doi.org/10.1016/j.matchar.2018.09.009
https://www.osti.gov/biblio/1701861
Volume 145
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