Publications
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High Temperature Strength of Co-based gamma/gamma' Superalloys. Advanced Intermetallic-Based Alloys(MRS Symposium Proceedings Series Volume 980). 980:499–504.
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2007. High Temperature Strength of Co-based $\gamma$/$\gamma$'Superalloys. MRS Proceedings. 980:0980–II08.
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2006. Influence of Ru and Cr on the heat-treated microstructure of Ni-based superalloys. Materials science forum. 546:1207–1210.
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2007. Intermetallic Bond Coats: Systems Compatibility and Platinum-Group Metal Additions. MRS Proceedings. 1128:1128–U06.
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2008. Intermetallic Bond Coats: Systems Compatibility and Platinum-Group Metal Additions. MRS Proceedings. 1128:1128–U06.
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2008. The kinetics of low temperature deformation in NiAl single crystals. Proc first int symp struct intermet, TMS, Warrendale, PA. :591–599.
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1993. Low temperature deformation kinetics of ruthenium aluminide alloys. MRS Proceedings. 552:KK7–11.
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1998. Mechanical Behavior of Ternary and Quaternary RuAl Alloys. MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS. 753:89–96.
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2003. Mechanical Behavior of Ternary and Quaternary Rual Alloys. MRS Proceedings. 753:BB2–11.
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2002. Microstructure and Deformation of Ti-22Al-23Nb Orthorhombic-Based Monolithic and Composite Titanium Aluminides. MRS Proceedings. 350:279.
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1994. Microstructure and mechanical properties of permanent mold cast Mg-4 A1-4 (Ca, Ce, La, or Sr) ternary alloys. Symposium on Magnesium Technology 2006 (TMS 12 March 2006 to 16 March 2006). :77–82.
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2006. Microstructure and Tensile Properties of a CoNi-Based Superalloy Fabricated by Selective Electron Beam Melting. Superalloys 2020.
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2020. Microstructure and Tensile Properties of a CoNi-Based Superalloy Fabricated by Selective Electron Beam Melting. Superalloys 2020.
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2020. Microstructure and Tensile Properties of a CoNi-Based Superalloy Fabricated by Selective Electron Beam Melting. Superalloys 2020.
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2020. 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. New phases in a multicomponent high ruthenium single crystal superalloy. Materials Science Forum. 475:655–660.
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2005. New Phases in Ruthenium-Containing Single-Crystal Superalloys. Superalloys 2004: The Tenth International Symposium on Superalloys. :769–778.
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2004. 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. 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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1987. Resonance ultrasound spectroscopy forward modeling and inverse characterization of nickel-based superalloys. 41ST ANNUAL REVIEW OF PROGRESS IN QUANTITATIVE NONDESTRUCTIVE EVALUATION: Volume 34. 1650:835–844.
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2015. Role of Non-metallic Inclusions and Twins on the Variability in Fatigue Life in Alloy 718 Nickel Base Superalloy. Superalloys 2020.
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2020. Structure Evolution in AZ 61 L along a Fine-Grain Sheet Processing Path. AIP Conference Proceedings.
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2012. 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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2009. Superalloys 2000. Ninth International Symposium on Superalloys. :2000.
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2000. Terahertz characterization of interfacial oxide layers and voids for health monitoring of ceramic coatings. 2009 34th International Conference on Infrared, Millimeter, and Terahertz Waves.
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2008.