Massive α precipitation selectivity and tensile fracture behavior of TC18 alloy

Near β titanium alloys have been widely used for preparing the aerospace structure. However, the microstructure and mechanical properties are highly sensitive to the processing process. In the large size alloy bar, especially, the massive α phases precipitate in some β grain (black spot defects), wh...

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Published in:Journal of alloys and compounds 2019-08, Vol.797, p.10-17
Main Authors: Shao, Hui, Shan, Di, Wang, Kaixuan, Zhang, Guojun, Zhao, Yongqing
Format: Article
Language:English
Subjects:
Crack propagation
Crystal defects
Deformation
Dislocations
Energy storage
Grains
Massive α
Mechanical properties
Orientation
Phases
Precipitation hardening
Recrystallization
Selectivity
Tensile property
Titanium alloy
Titanium alloys
Titanium base alloys
β grain
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cited_by cdi_FETCH-LOGICAL-c337t-994d9ea5cf1c4ed6f9adc3609a87590e921b694dd93ba239b794df77ae26819a3
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container_end_page 17
container_issue
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container_title Journal of alloys and compounds
container_volume 797
creator Shao, Hui
Shan, Di
Wang, Kaixuan
Zhang, Guojun
Zhao, Yongqing
description Near β titanium alloys have been widely used for preparing the aerospace structure. However, the microstructure and mechanical properties are highly sensitive to the processing process. In the large size alloy bar, especially, the massive α phases precipitate in some β grain (black spot defects), which is not beneficial for improving the mechanical properties. In this paper, the analysis of β recrystallization and local α precipitation in TC18 alloy (near β alloy) has been carried out during the annealing. It is found that the massive α phases precipitate in β grains with stable-deformation orientations. The local massive α phases are responsible for forming the “black spots”. Compared with the alloy containing non-massive α, the strength of the alloy with the massive α apparently increases by the α precipitation strengthening, while the plasticity decreases greatly due to the crack propagation along the textured β grain or α lath/β interfaces within the normal grains. Based on the analysis of the relationship between the massive α and β orientations, the deformation dislocation storage energy induced α precipitation and tensile fracture mode have been further discussed. •The massive α selectively precipitate in Goss oriented β grain.•The dislocation storage energy induced massive α precipitation.•The strength increases with increasing the massive α content.
doi_str_mv 10.1016/j.jallcom.2019.04.315
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subjects Crack propagation
Crystal defects
Deformation
Dislocations
Energy storage
Grains
Massive α
Mechanical properties
Orientation
Phases
Precipitation hardening
Recrystallization
Selectivity
Tensile property
Titanium alloy
Titanium alloys
Titanium base alloys
β grain
title Massive α precipitation selectivity and tensile fracture behavior of TC18 alloy
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