Effect of phase content on mechanical properties and deformation mechanism in TC21 titanium alloy: An in-situ tensile investigation
Author:
Funder
National Natural Science Foundation of China
Publisher
Elsevier BV
Subject
General Physics and Astronomy
Reference48 articles.
1. An in situ study of microstructural strain localization in an (α + β) Ti-Al-V-Fe-Si-O alloy;Kang;Acta Materialia,2023
2. Fracture behavior of notched TC21 alloy observed by In-situ SEM;Shan;Results in Physics,2019
3. Trade-off of rapid recrystallization and mechanical property improvement of Ti-6Al-4V alloy;Shao;Results in Physics,2019
4. Evolution of microstructure and tensile properties during the three-stage heat treatment of TA19 titanium alloy;Li;Materials Science and Engineering A,2018
5. Slip initiation in interlayered β and corresponding slip transfer during compression of a lamellar-structure titanium alloy;Wang;Results in Physics,2020
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1. Analysis of strain localization and slip transfer based on composite Schmid factor in TA19 titanium alloy;Materials Characterization;2024-05
2. Effect of multistage lamellar microstructure on mechanical properties of Tc18 alloy;Materials Today Communications;2024-03
3. Multiple deformation mechanisms induce high work hardening in Ti–5Al–7.5 V alloy via transformed β matrix;Materials Research Letters;2024-02-25
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