On the role of thermal exposure on the stress controlled fatigue behaviour of an intermediate strength γ-TiAl based alloy
Author:
Funder
National Natural Science Foundation of China,
Publisher
Elsevier BV
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference37 articles.
1. Elevated temperature crack growth resistance of TiAl under monotonic and cyclic loading
2. Strength, fracture, and fatigue behavior of advanced high-temperature intermetallics reinforced with ductile phases
3. Fatigue crack growth through the lamellar microstructure of an alloy based on TiAl at 25 °C and 800 °C
4. Cyclic crack growth in titanium aluminides
5. Fatigue-crack growth and fracture resistance of a two-phase (γ + α2) TiAl alloy in duplex and lamellar microstructures
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1. Surface Condition Evolution and Fatigue Evaluation after Different Surface Processes for TiAl47Cr2Nb2 Alloy;Materials;2022-08-10
2. Impact of β-phase in TiAl alloys on mechanical properties after high temperature air exposure;Intermetallics;2020-04
3. Recent progress in the high-cycle fatigue behaviour of γ-TiAl alloys;Materials Science and Technology;2018-04-27
4. Microstructural characterization and fatigue response of alloy Ti-46Al-5Nb-1W with varied surface quality and thermal exposure history;Materials Characterization;2017-08
5. Fatigue response of a grain refined TiAl alloy Ti-44Al-5Nb-1W-1B with varied surface quality and thermal exposure history;Intermetallics;2017-06
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