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- Title
Kink Formation through Creep Deformation and Possibility of Kink Strengthening in Ti<sub>3</sub>SiC<sub>2</sub> MAX Phase.
- Authors
Daiki Matsui; Koji Morita; Daisuke Terada; Ken-ichi Ikeda; Seiji Miura
- Abstract
Kink formation and kink strengthening mechanisms were examined in the polycrystalline Ti3SiC2 MAX phase prepared by a reaction sintering process using a spark-plasma-sintering machine. The creep behavior tested by compression at 1200°C showed two deformation regions depending on the applied stresses; at stresses lower than 120 MPa, the stress exponent n exhibited ≈1.8, whereas at higher stresses, it exhibited n ≥ 6. The creep behavior can be ascribed to grain boundary sliding mechanisms for the lower stresses with n ≈ 1.8 and to dislocation-related creep mechanisms for the higher stresses with n ≥ 6. The kink bands were frequently observed to form in the grains deformed only at the higher stresses when its basal plane was inclined by about 10-20° against the compressive axis. This suggests that the kink bands might be formed only when two factors of the high stresses acting on the basal plane and the resultant dislocation activities were satisfied. Nanoindentation tests conducted around the formed kink bands showed that the nanohardness linearly changed with the distance from the kink bands and showed higher values around the kink bands. Since the kink bands blocked the slip line caused by the nanoindentation, those become obstacles against the dislocation motion caused by the indentation deformation. This suggests that the kink bands would contribute to improving the mechanical properties of the Ti3SiC2 MAX phase.
- Subjects
DEFORMATIONS (Mechanics); NANOINDENTATION; NANOINDENTATION tests; TITANIUM powder; CREEP (Materials); CRYSTAL grain boundaries; POSSIBILITY
- Publication
Materials Transactions, 2022, Vol 63, Issue 7, p1055
- ISSN
1345-9678
- Publication type
Article
- DOI
10.2320/matertrans.MT-M2021255