Publications

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2013
Birkel CS, Douglas JE, Lettiere BR, Seward G, Verma N, Zhang Y, Pollock TM, Seshadri R, Stucky GD.  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.
Birkel CS, Douglas JE, Lettiere BR, Seward G, Verma N, Zhang Y, Pollock TM, Seshadri R, Stucky GD.  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.
Birkel CS, Douglas JE, Lettiere BR, Seward G, Verma N, Zhang Y, Pollock TM, Seshadri R, Stucky GD.  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.
Birkel CS, Douglas JE, Lettiere BR, Seward G, Zhang Y, Pollock TM, Seshadri R, Stucky GD.  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.
Birkel CS, Douglas JE, Lettiere BR, Seward G, Zhang Y, Pollock TM, Seshadri R, Stucky GD.  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.
Birkel CS, Douglas JE, Lettiere BR, Seward G, Zhang Y, Pollock TM, Seshadri R, Stucky GD.  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.
Allison J, Cowles B, DeLoach J, Pollock T, Spanos G.  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
Lenaburg LA, Sciaky ES, Pollock TM.  2013.  Outcomes from research collaborations: What are they and how long do they take? MRS bulletin. 38:526–528.
2014
Steuer S, Hervier Z, Thabart S, Castaing C, Pollock TM, Cormier J.  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.
Eggeler YM, Titus MS, Suzuki A, Pollock TM.  2014.  Creep deformation-induced antiphase boundaries in L1 2-containing single-crystal cobalt-base superalloys. Acta Materialia. 77:352–359.
Pollock TM, Jorgensen D, Jackson RW, He M, Suzuki A, Lipkin D.  2014.  Design constraints and higher temperature intermetallic bond coatings.
Douglas JE, Chater PA, Brown CM, Pollock TM, Seshadri R.  2014.  Nanoscale structural heterogeneity in Ni-rich half-Heusler TiNiSn. Journal of Applied Physics. 116:163514.
Suzuki A, Gao Y, Lipkin D, Singhal A, Krug M, Konitzer D, Almer J, Pollock T, Bewlay B.  2014.  Oxide-assisted crack growth in hold-time low-cycle-fatigue of single-crystal superalloys. MATEC Web of Conferences. 14:04004.
Suzuki A, Gao Y, Lipkin D, Singhal A, Krug M, Konitzer D, Almer J, Pollock T, Bewlay B.  2014.  Oxide-assisted crack growth in hold-time low-cycle-fatigue of single-crystal superalloys. MATEC Web of Conferences. 14:04004.
Douglas JE, Birkel CS, Verma N, Miller VM, Miao M-S, Stucky GD, Pollock TM, Seshadri R.  2014.  Phase stability and property evolution of biphasic Ti–Ni–Sn alloys for use in thermoelectric applications. Journal of Applied Physics. 115:043720.
Douglas JE, Birkel CS, Verma N, Miller VM, Miao M-S, Stucky GD, Pollock TM, Seshadri R.  2014.  Phase stability and property evolution of biphasic Ti–Ni–Sn alloys for use in thermoelectric applications. Journal of Applied Physics. 115:043720.
Nizolek T, Mara NA, Beyerlein IJ, Avallone JT, Scott JE, Pollock TM.  2014.  Processing and deformation behavior of bulk Cu–Nb nanolaminates. Metallography, Microstructure, and Analysis. 3:470–476.
Titus MS, Suzuki A, Mills MJ, Pollock TM.  2014.  Sub-nanometer Resolution Chemi-STEM EDS Mapping of Superlattice Intrinsic Stacking Faults in Co-based Superalloys. Microscopy and Microanalysis. 20:1028–1029.
2015
Steuer S, Villechaise P, Pollock TM, Cormier J.  2015.  Benefits of high gradient solidification for creep and low cycle fatigue of AM1 single crystal superalloy. Materials Science and Engineering: A. 645:109–115.
Carpenter JS, Nizolek T, McCabe RJ, Knezevic M, Zheng SJ, Eftink BP, Scott JE, Vogel SC, Pollock TM, Mara NA et al..  2015.  Bulk texture evolution of nanolamellar Zr–Nb composites processed via accumulative roll bonding. Acta Materialia. 92:97–108.
Titus MS, Eggeler YM, Suzuki A, Pollock TM.  2015.  Creep-induced planar defects in L1 2-containing Co-and CoNi-base single-crystal superalloys. Acta Materialia. 82:530–539.
Titus MS, Mottura A, G Viswanathan B, Suzuki A, Mills MJ, Pollock TM.  2015.  High resolution energy dispersive spectroscopy mapping of planar defects in L1 2-containing co-base superalloys. Acta Materialia. 89:423–437.
Stinville JC, Vanderesse N, Bridier F, Bocher P, Pollock TM.  2015.  High resolution mapping of strain localization near twin boundaries in a nickel-based superalloy. Acta Materialia. 98:29–42.
Nizolek T, Avallone J, Pollock T, Mara N, Beyerlein I, Scott J.  2015.  High strength bulk metallic nanolaminates.
Echlin MP, Lenthe WC, Douglas J, Titus M, Guerts R, Straw M, Pollock TM.  2015.  In situ Femtosecond Laser and Argon Ion Beams for 3D Microanalysis using the TriBeam. Microscopy and Microanalysis. 21:1847–1848.

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