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Microstructures and mechanical properties of a directionally solidified NiAl-Mo eutectic alloy

Journal Article · · Acta Materialia
 [1];  [1]
  1. Department of Materials Science and Engineering, University of Tennessee, 434 Dougherty Hall, Knoxville, TN 37996-2200 (United States) and Oak Ridge National Laboratory, Metals and Ceramics Division, 1 Bethel Valley Road, Oak Ridge, TN 37831-6093 (United States)
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A NiAl-Mo ternary eutectic alloy, having the nominal composition Ni-45.5Al-9Mo (at.%), was directionally solidified in a high-temperature optical floating zone furnace. Well-aligned rod-like microstructures were obtained, consisting of NiAl matrix and 14% (by volume) continuous Mo fibers having a square cross-section. With increasing growth rate (from 20 to 80 mm/h), the spacing and size of the Mo fibers decreased, from {approx}2 to 1 {mu}m (fiber spacing) and 800 to 400 nm (fiber size). X-ray microprobe analyses revealed that the NiAl matrix contained essentially no Mo (<0.1 at.%) and had the composition Ni-45.2Al (at.%), while the composition of the Mo fibers was Mo-10.1Al-3.9Ni (at.%). From electron backscatter diffraction patterns, the following orientation relationships were obtained: <1 0 0>{sub NiAl}//<1 0 0>{sub Mo}, and (0 1 1){sub NiAl}//(0 1 1){sub Mo}. The growth directions and Mo/NiAl interface boundaries were found to be parallel to <1 0 0> and (0 1 1), respectively, in both Mo and NiAl. Nanoindentation was used to probe the mechanical properties of the individual phases in the eutectic microstructure and the modulus and hardness of the NiAl matrix were determined to be 180 and 2.9 GPa, respectively, and those of the Mo fibers 270 and 4.8 GPa. Tensile tests were used to investigate the temperature dependence of the strength and ductility of the composite. Its ductile-to-brittle transition temperature was found to be {approx}675 deg C, and its yield strength about 25-30% higher than that of <1 0 0> NiAl single crystals over the temperature range 600-1000 deg C.
OSTI ID:
20637106
Journal Information:
Acta Materialia, Journal Name: Acta Materialia Journal Issue: 1 Vol. 53; ISSN 1359-6454; ISSN ACMAFD
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
ALUMINIUM ALLOYS
DIFFRACTION
DUCTILE-BRITTLE TRANSITIONS
DUCTILITY
EUTECTICS
FIBERS
HARDNESS
MICROSTRUCTURE
MOLYBDENUM ALLOYS
NICKEL ALLOYS
PRESSURE RANGE GIGA PA
SOLIDIFICATION
TEMPERATURE RANGE 0400-1000 K
TEMPERATURE RANGE 1000-4000 K
X RADIATION
YIELD STRENGTH