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1300 K Compressive Properties of a Reaction Milled NiAl-AlN Composite

Published online by Cambridge University Press:  21 February 2011

J. Daniel Whittenberger ,
Eduard Arzt  and
Michael J. Luton
J. Daniel Whittenberger
Affiliation:
NASA Lewis Research Center, Cleveland, OH 44135
Eduard Arzt
Affiliation:
Max-Planck-Institut für Metallforschung, Stuttgart, FRG
Michael J. Luton
Affiliation:
Exxon Research and Engineering, Annadale, NJ 08801
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Abstract

Cryomilling (high intensity mechanical ball milling in a liquid nitrogen bath) of the B2 crystal structure nickel aluminide leads to a NiAl-AlN composite containing about 10 vol pct second phase which is dispersed as very small diameter (< 50 nm) AlN particles in a mantle surrounding particle-free NiAl grains. The AlN particles are the result of reaction milling, where nitrogen incorporated into the matrix during cryomilling reacts with Al during subsequent thermomechanical processing to form a composite. Compressive testing at 1300 K of such materials densified by either hot extrusion or hot isostatic pressing have indicated that strength at relatively fast strain rates (>10−7 s−1 ) is dependent on the method of consolidation; however no clear dependency on densification technique appears to exist at slower rates. In addition deformation at 1300 K occurs by two distinct mechanisms, where at high strain rates the stress exponent is greater than 13 while at slower rates (< 10−7 s−1) a much lower stress exponent (∼6) was found.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 194: Symposium R – Intermetallic Matrix Composites I , 1990 , 211
Copyright
Copyright © Materials Research Society 1990

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References

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