Microstructure evolution of a new near-β titanium alloy:Ti555211 during high-temperature deformation

The isothermal compression testing of Ti555211 titanium alloys was carried out at deformation temperatures from 750 to 950 ℃ in 50 ℃ intervals,with strain rate of 0.001-1.000 s-1and height reduction of 20%-60%.The effect of processing parameters(deformation temperature,strain rate and deformation de...

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Bibliographic Details
Published in:Rare metals 2015-11, Vol.34 (11), p.757-763
Main Authors: An, Zhen, Li, Jin-Shan, Feng, Yong
Format: Article
Language:English
Subjects:
alloy
High-temperature
Biomaterials
Chemistry and Materials Science
Deformation
deformation
Micros
Energy
Evolution
Grain size
Lamellar structure
Materials Engineering
Materials Science
Metallic Materials
Microstructure
Morphology
Nanoscale Science and Technology
Phase transformations
Physical Chemistry
Strain rate
Titanium
Titanium base alloys
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Summary:The isothermal compression testing of Ti555211 titanium alloys was carried out at deformation temperatures from 750 to 950 ℃ in 50 ℃ intervals,with strain rate of 0.001-1.000 s-1and height reduction of 20%-60%.The effect of processing parameters(deformation temperature,strain rate and deformation degree) on the microstructure evolution and the microstructure variables was investigated.The results show that the content of primary α phase decreases with the increase in deformation temperature.The effect of strain rate on microstructure variables of isothermally compressed Ti555211 alloy is mainly dependent on the deformation temperature.The fine second α phase partly transforms to β phase due to the deformation heat effect at the high strain rate,α phase becomes globular with temperature increasing and strain rate decreasing.In contrast,α phase is refined with temperature decreasing and strain rate increasing.The deformation degree has a little influence on the grain size and the morphology of primary α phase,but the effect of deformation degree on the morphology of second α phase is significant.The larger deformation degree is in favor of the globularization of lamellar α structure.
ISSN:1001-0521
1867-7185
DOI:10.1007/s12598-015-0593-3