Publications
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] Type Year Filters: Author is Pollock, Tresa M [Clear All Filters]
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2009. STRUCTURE REFINEMENT BY A LIQUID METAL COOLING DIRECTIONAL SOLIDIFICATION PROCESS FOR SINGLE CRYSTAL NICKEL-BASE SUPERALLOYS. International Symposium on Liquid Metal Processing and Casting 2009 (LMPC 2009).
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2002. Strain hardening. Intermetallic Compounds-Principles and Practice: Progress, Volume 3. :361–377.
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2013. A statistical sampling approach for measurement of fracture toughness parameters in a 4330 steel by 3-D femtosecond laser-based tomography. Acta Materialia. 61:5791–5799.
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2024. On the stability of coherent HfRu- and ZrRu-B2 precipitates in Nb-based alloys. Mater. Des.. 247:113385.
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2024. Solute-solute interactions in dilute Nb-X-O alloys from first principles. Acta Mater.. 266:119621.
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2025. Solidification behavior and cracking mechanisms of Ru-containing BCC-B2 superalloys. Scr. Mater.. 267:116731.
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2024. Solidification and crack defect formation on the single melt track scale for high $$\textbackslashupgamma ^\textbackslashprime $$ CoNi-base superalloy variants. The Minerals, Metals & Materials Series. :948–957.
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2007. Small fatigue crack growth in metallic materials: a model and its application to engineering alloys. Acta Materialia. 55:6606–6616.
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2011. Single-crystal solidification of new Co–Al–W-base alloys. Intermetallics. 19:636–643.
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2015. Role of vibrational and configurational excitations in stabilizing the L 1 2 structure in Co-rich Co-Al-W alloys. Physical Review B. 92:174117.
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2024. Role of microstructure on the development of local orientation gradients in polycrystals. J. Mater. Res. Technol.. 33:168–179.
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2024. On the role of geometrically necessary dislocations in void formation and growth in response to shock loading conditions in wrought and additively manufactured Ta. J. Mater. Res. Technol.. 31:3035–3049.
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2025. Resolving thermal gradients and solidification velocities during laser melting of a refractory alloy. Addit. Manuf.. 105:104750.
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2024. Resolving crystallographic geometrically necessary dislocations in three dimensions in a hexagonal close packed titanium alloy. Model. Simul. Mat. Sci. Eng.. 32:065035.
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2024. Resolving crystallographic geometrically necessary dislocations in three dimensions in a hexagonal close packed titanium alloy. Model. Simul. Mat. Sci. Eng.. 32:065035.
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2025. Refractory multi-principal element alloys with solution and aged HfRu-B2 precipitates. Scr. Mater.. 255:116411.
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2016. Recrystallization and the Development of Abnormally Large Grains After Small Strain Deformation in a Polycrystalline Nickel-Based Superalloy. Metallurgical and Materials Transactions A. 47:1566–1574.
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2015. Quantitative voxel-to-voxel comparison of TriBeam and DCT strontium titanate three-dimensional data sets. Journal of Applied Crystallography. 48:1034–1046.
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2024. Quantification of melt pool dynamics and microstructure during simulated additive manufacturing. Scr. Mater.. 245:116036.
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2015. A Pt-modified Ni-base superalloy with high temperature precipitate stability. Materials Science and Engineering: A. 639:747–754.
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2012. Processing to fatigue properties: benefits of high gradient casting for single crystal airfoils. Superalloys 2012. :379–385.
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2016. Prediction of the plastic anisotropy of magnesium alloys with synthetic textures and implications for the effect of texture on formability. Materials Science and Engineering: A. 675:345–360.
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2016. Prediction of Fatigue-Initiating Twin Boundaries in Polycrystalline Nickel Superalloys Informed by TriBeam Tomography. Microscopy and Microanalysis. 22:1732–1733.
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1987. Phenomenology and mechanisms of recovery creep. Proc. 8th Int. Symp. on Metallurgy and Materials Science, RISO National Lab., Roskilde, Denmark. :39–54.
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2005. Phase Transformation and Creep of Mg-Al-Ca Based Die-Cast Alloys. Essential Readings in Magnesium Technology. :291–296.