Development and Properties of Cast TiAl Matrix In Situ Composites Reinforced with Carbide Particles

التفاصيل البيبلوغرافية
العنوان:	Development and Properties of Cast TiAl Matrix In Situ Composites Reinforced with Carbide Particles
المؤلفون:	Lapin, Juraj, Klimová, Alena, Štamborská, Michaela, Kamyshnykova, Kateryna, Pelachová, Tatiana
المصدر:	Materials Science Forum; December 2018, Vol. 941 Issue: 1 p1907-1913, 7p
مستخلص:	The In Situ composites with microstructurally different types of intermetallic matrix such as nearly γ (TiAl) (composite A), multiphase with high amount of lamellar α2(Ti3Al) + γ (TiAl) regions (composite B) and fully lamellar α2 + γ (composite C) were prepared by centrifugal casting and consecutive heat treatments of Ti-44.5Al-8Nb-0.8Mo-3.6C-0.1B, Ti-37Al-7Nb-0.8Mo-5.9C-0.1B and Ti-46.4Al-5Nb-1C-0.2B (at.%) alloys, respectively. The centrifugal casting results in a uniform distribution of coarse primary carbide particles in the as-cast samples. Hot isostatic pressing (HIP) and heat treatments have no effect on the Vickers hardness of the in-situ composite B but lead to a significant softening of the in-situ composites A and C. The in-situ composite C with a coarse-grained fully lamellar matrix shows a higher flow stress at 1000 °C and improved creep resistance at 800 °C compared to those of the in-situ composites A and B.
قاعدة البيانات:	Supplemental Index

الوصف
تدمد:	02555476 16629752
DOI:	10.4028/www.scientific.net/MSF.941.1907