Publications
Deformation of Ru–Al–Ta ternary alloys. Intermetallics. 12:755–762.
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2004. Deformation of a platinum-containing RuAl intermetallic by< 111> dislocations. Scripta materialia. 48:1087–1092.
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2003. Deformation mechanisms in a Ru–Ni–Al ternary B2 intermetallic alloy. Acta materialia. 55:2715–2727.
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2007. Cyclic oxidation of Ru-containing single crystal superalloys at 1100 C. Materials Science and Engineering: A. 458:184–194.
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2007. Cyclic oxidation of high temperature coatings on new $\gamma$′-strengthened cobalt-based alloys. Corrosion Science. 75:300–308.
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2013. The Critical Role of Shock Melting in Ultrafast Laser Machining. Minerals, Metals and Materials Society/AIME, 420 Commonwealth Dr., P. O. Box 430 Warrendale PA 15086 United States.[np]. Feb.
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2011. CREEP RESISTANCE OF CMSX-3 NICKEL-BASE SUPERALLOY SINGLE-CRYSTALS (VOL 40, PG 1, 1992). ACTA METALLURGICA ET MATERIALIA. 41:2253–2253.
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1993. Creep resistance of CMSX-3 nickel base superalloy single crystals. Acta Metallurgica et Materialia. 40:1–30.
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1992. Creep deformation mechanisms in Ru-Ni-Al ternary B2 alloys. Metallurgical and Materials Transactions A. 39:39–49.
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2008. Creep deformation and the evolution of precipitate morphology in nickel-based single crystals. Modelling of Microstructural Evolution in Creep Resistant Materials. :1998.
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1998. Creep behavior under isothermal and non-isothermal conditions of AM3 single crystal superalloy for different solutioning cooling rates. Materials Science and Engineering: A. 601:145–152.
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2014. Crack progression during sustained-peak low-cycle fatigue in single-crystal Ni-base superalloy René N5. Metallurgical and Materials Transactions A. 41:947–956.
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2010. A comparative investigation of oxide formation on EQ (Equilibrium) and NiCoCrAlY bond coats under stepped thermal cycling. Surface and Coatings Technology. 205:3066–3072.
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2011. A comparative analysis of low temperature deformation in B2 aluminides. Materials Science and Engineering: A. 317:241–248.
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2001. A combined grain scale elastic–plastic criterion for identification of fatigue crack initiation sites in a twin containing polycrystalline nickel-base superalloy. Acta Materialia. 103:461–473.
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2016. Cast structure and property variability in gamma titanium aluminides. Intermetallics. 6:629–636.
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1998. Bulk texture evolution of nanolamellar Zr–Nb composites processed via accumulative roll bonding. Acta Materialia. 92:97–108.
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2015. The breakdown of single-crystal solidification in high refractory nickel-base alloys. Metallurgical and Materials Transactions A. 27:1081–1094.
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1996. Bimetallic low thermal-expansion panels of Co-base and silicide-coated Nb-base alloys for high-temperature structural applications. Materials Science and Engineering: A. 528:3973–3980.
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2011. Benefits of high gradient solidification for creep and low cycle fatigue of AM1 single crystal superalloy. Materials Science and Engineering: A. 645:109–115.
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2015. 2006-01-0319 A Test Method for Quantifying Residual Stress Due to Heat Treatment in Metals. SAE TRANSACTIONS. 115:273.
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2007. Superalloys 2000. Ninth International Symposium on Superalloys. :2000.
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2000. New Phases in Ruthenium-Containing Single-Crystal Superalloys. Superalloys 2004: The Tenth International Symposium on Superalloys. :769–778.
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2004. New phases in a multicomponent high ruthenium single crystal superalloy. Materials Science Forum. 475:655–660.
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2005. A multi-scale model for texture development in Zr/Nb nanolayered composites processed by accumulative roll bonding. IOP Conference Series: Materials Science and Engineering. 63:012170.
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2014.