Publications
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2015. The TriBeam system: Femtosecond laser ablation in situ SEM. Materials Characterization. 100:1–12.
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2014. 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. Creep deformation-induced antiphase boundaries in L1 2-containing single-crystal cobalt-base superalloys. Acta Materialia. 77:352–359.
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2014. Nanoscale structural heterogeneity in Ni-rich half-Heusler TiNiSn. Journal of Applied Physics. 116:163514.
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2014. Oxide-assisted crack growth in hold-time low-cycle-fatigue of single-crystal superalloys. MATEC Web of Conferences. 14:04004.
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2014. Oxide-assisted crack growth in hold-time low-cycle-fatigue of single-crystal superalloys. MATEC Web of Conferences. 14:04004.
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2014. Phase stability and property evolution of biphasic Ti–Ni–Sn alloys for use in thermoelectric applications. Journal of Applied Physics. 115:043720.
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2014. Phase stability and property evolution of biphasic Ti–Ni–Sn alloys for use in thermoelectric applications. Journal of Applied Physics. 115:043720.
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2014. Processing and deformation behavior of bulk Cu–Nb nanolaminates. Metallography, Microstructure, and Analysis. 3:470–476.
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2014. Sub-nanometer Resolution Chemi-STEM EDS Mapping of Superlattice Intrinsic Stacking Faults in Co-based Superalloys. Microscopy and Microanalysis. 20:1028–1029.
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2013. The effect of aging on the relaxation of residual stress in cast aluminum. Metallurgical and Materials Transactions A. 44:4809–4818.
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2013. Improving the thermoelectric properties of half-Heusler TiNiSn through inclusion of a second full-Heusler phase: microwave preparation and spark plasma sintering of TiNi 1+ x Sn. Physical Chemistry Chemical Physics. 15:6990–6997.
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2013. Improving the thermoelectric properties of half-Heusler TiNiSn through inclusion of a second full-Heusler phase: microwave preparation and spark plasma sintering of TiNi 1+ x Sn. Physical Chemistry Chemical Physics. 15:6990–6997.
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2013. Improving the thermoelectric properties of half-Heusler TiNiSn through inclusion of a second full-Heusler phase: microwave preparation and spark plasma sintering of TiNi 1+ x Sn. Physical Chemistry Chemical Physics. 15:6990–6997.
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2013. Influence of Ni nanoparticle addition and spark plasma sintering on the TiNiSn–Ni system: structure, microstructure, and thermoelectric properties. Solid State Sciences. 26:16–22.
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2013. Influence of Ni nanoparticle addition and spark plasma sintering on the TiNiSn–Ni system: structure, microstructure, and thermoelectric properties. Solid State Sciences. 26:16–22.
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2013. Influence of Ni nanoparticle addition and spark plasma sintering on the TiNiSn–Ni system: structure, microstructure, and thermoelectric properties. Solid State Sciences. 26:16–22.
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2013. Integrated Computational Materials Engineering (ICME): Implementing ICME in the Aerospace, Automotive, and Maritime Industries. A Study Organized by The Minerals, Metals & Materials Society. The Minerals, Metals & Materials Society, Warrendale, PA. 15086
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2013. Outcomes from research collaborations: What are they and how long do they take? MRS bulletin. 38:526–528.
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2012. Creep and directional coarsening in single crystals of new $\gamma$–$\gamma$′ cobalt-base alloys. Scripta Materialia. 66:574–577.
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2012. Enhanced thermoelectric properties of bulk TiNiSn via formation of a TiNi2Sn second phase. Applied Physics Letters. 101:183902.
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2012. Enhanced thermoelectric properties of bulk TiNiSn via formation of a TiNi2Sn second phase. Applied Physics Letters. 101:183902.
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2012. Fluid flow and defect formation in the three-dimensional dendritic structure of nickel-based single crystals. Metallurgical and Materials Transactions A. 43:369–380.
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2012. High Temperature Creep of New L12 Containing Cobalt-Base Superalloys. Superalloys 2012. :823–832.