Dependency of microstructure and microhardness on withdrawal rate of Ti-43Al-2Cr-2Nb alloy prepared by electromagnetic cold crucible directional solidification

The intermetallic Ti-43Al-2Cr-2Nb(at.%) alloy was directionally solidified in an electromagnetic cold crucible with different withdrawal rates(V) ranging from 0.2 to 1.0 mm·min~(-1), at a constant temperature gradients(G=18 K·mm~(-1)). Macrostructures of the alloy were observed by optical microscopy...

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Bibliographic Details
Published inChina foundry Vol. 13; no. 4; pp. 289 - 293
Main Authors Wang, Yong-zhe, Ding, Hong-sheng, Chen, Rui-run, Guo, Jing-jie, Fu, Heng-zhi
Format Journal Article
LanguageEnglish
Published Singapore Springer Singapore 01.07.2016
Foundry Journal Agency
Subjects
Alloys
Electromagnetism
Electron microscopy
Engineering
Intermetallic compounds
Machines
Manufacturing
Materials Engineering
Metallic Materials
Metals (Materials)
Microscopy
Processes
Research Article
Specialty metals industry
TiAl-based alloys; directional solidification; microstructure; microhardness
microhardness
microstructure
TiAl-based alloys
directional solidification
TG146.23
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Summary:The intermetallic Ti-43Al-2Cr-2Nb(at.%) alloy was directionally solidified in an electromagnetic cold crucible with different withdrawal rates(V) ranging from 0.2 to 1.0 mm·min~(-1), at a constant temperature gradients(G=18 K·mm~(-1)). Macrostructures of the alloy were observed by optical microscopy. Microstructures of the alloy were characterized by scanning electron microscopy(SEM) in back-scattered electron mode and transmission electron microscopy. Results showed that morphologies of macrostructure depend greatly on the applied withdrawal rate. Continuous columnar grains can be obtained under slow withdrawal rates ranging from 0.2 to 0.6 mm·min~(-1). The microstructure of the alloy was composed of α_2/γ lamellar structures and a small number of mixtures of B2 phases and blocky γ phases. The columnar grain size(d) and interlamellar spacing(λ) decrease with an increasing withdrawal rate. The effect of withdrawal rate on microhardness was also investigated. The microhardness of the directional y solidified Ti-43Al-2Cr-2Nb alloy increases with an increase in withdrawal rate. This is mainly attributed to the increase of B2 and α_2 phases as well as the refinement of lamellae.
Bibliography:21-1498/TG
microhardness withdrawal directional spacing lamellar attributed solidification refinement columnar mixtures
The intermetallic Ti-43Al-2Cr-2Nb(at.%) alloy was directionally solidified in an electromagnetic cold crucible with different withdrawal rates(V) ranging from 0.2 to 1.0 mm·min~(-1), at a constant temperature gradients(G=18 K·mm~(-1)). Macrostructures of the alloy were observed by optical microscopy. Microstructures of the alloy were characterized by scanning electron microscopy(SEM) in back-scattered electron mode and transmission electron microscopy. Results showed that morphologies of macrostructure depend greatly on the applied withdrawal rate. Continuous columnar grains can be obtained under slow withdrawal rates ranging from 0.2 to 0.6 mm·min~(-1). The microstructure of the alloy was composed of α_2/γ lamellar structures and a small number of mixtures of B2 phases and blocky γ phases. The columnar grain size(d) and interlamellar spacing(λ) decrease with an increasing withdrawal rate. The effect of withdrawal rate on microhardness was also investigated. The microhardness of the directional y solidified Ti-43Al-2Cr-2Nb alloy increases with an increase in withdrawal rate. This is mainly attributed to the increase of B2 and α_2 phases as well as the refinement of lamellae.
ISSN:1672-6421
2365-9459
1672-6421
DOI:10.1007/s41230-016-5102-2