Solid solution limits and selected mechanical properties of the quaternary L1[sub 2] trialuminide Al-Ti-Mn-Mo. [Al-25Ti-11Mn-8Mo]
- Oak Ridge National Lab., TN (United States)
Intermetallics based on the trialuminide Al[sub 3]Ti, or on Al[sub 11]Ti[sub 5], have been extensively researched in recent years. Alloying with approximately 10 at.% of first-row transition elements, such as Cr or Mn, converts the DO[sub 22] structure of Al[sub 3]Ti to L1[sub 2]. Although this transition to the L1[sub 2] structure increases the number of independent slip systems to five and causes substantial softening, room-temperature tensile ductilities and fracture toughnesses remain low. Typical values for the room-temperature ductilities of Al-25Ti-8Cr and Al-25Ti-9Mn are 0.2% and room-temperature fracture toughnesses of trialuminides range from 2 to 5 MPa m[sup 1/2]. Reasons for the low fracture toughness of trialuminides have been discussed by Turner et al. and George et al. On a phenomenological basis, it appears that fracture toughnesses might improve, if either Poisson's ratio or the ratio of the bulk and shear moduli can be increased. In principle, this might be achieved by macroalloying ternary L1[sub 2] trialuminides, while at the same time maintaining the L1[sub 2] crystal structure. Focusing on first-row transition elements, Kumar and Brown investigated a range of such quaternary compounds. They did not observe any improvement in ductility, as compared to the ternary compounds. In the present work, it was decided to focus on a second-row transition element, namely, 2 molybdenum. As compared to Cr and Mn, which are only slightly soluble in Al[sub 3]Ti, up to 20 at. % Mo dissolves in Al[sub 3]Ti at 1,198 K. This raises the question whether substantial amounts of Mo also dissolve in the cubic ternary trialuminides such as Al-Ti-Mn. In order to verify this possibility, the extent of the single-phase region of cubic Al-Ti-Mn-Mo intermetallic was mapped out at 1,473 K. In addition, a limited characterization of room-temperature mechanical properties was carried out.
- DOE Contract Number:
- AC05-84OR21400
- OSTI ID:
- 5263870
- Journal Information:
- Scripta Metallurgica et Materialia; (United States), Vol. 30:8; ISSN 0956-716X
- Country of Publication:
- United States
- Language:
- English
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