Publications
Planar defect formation in the g′ phase during high temperature creep in single crystal CoNi-base superalloys. Acta Materialia. 113:335–349.
.
2016. Post-fabrication vapor phase strengthening of nickel-based sheet alloys for thermostructural panels. Acta Materialia. 56:4577–4584.
.
2008. Precipitate Shearing, Fault Energies, and Solute Segregation to Planar Faults in Ni-, CoNi-, and Co-Base Superalloys. Annual Review of Materials Research. 51:209-240.
.
2021. Precipitation strengthening of a Mg-Al-Ca–based AXJ530 die-cast alloy. Metallurgical and Materials Transactions A. 39:696–702.
.
2008. Predicting freckle formation in single crystal Ni-base superalloys. Journal of materials science. 39:7199–7205.
.
2004. Prediction of Fatigue-Initiating Twin Boundaries in Polycrystalline Nickel Superalloys Informed by TriBeam Tomography. Microscopy and Microanalysis. 22:1732–1733.
.
2016. Prediction of Magnesium Alloy Formability: The Role of Texture. Magnesium Technology 2016. :257–262.
.
2016. Prediction of tensile stiffness and strength of Ti-6Al-4V using instantiated volume elements and crystal plasticity. Acta Materialia. 157:21–32.
.
2018. 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.
.
2016. Process Simulation for the Directional Solidification of a Tri-Crystal Ring Segment via the Bridgman and Liquid-Metal-Cooling Processes. Metallurgical and Materials Transactions A. 43:2414–2425.
.
2012. Processing and deformation behavior of bulk Cu–Nb nanolaminates. Metallography, Microstructure, and Analysis. 3:470–476.
.
2014. Processing to fatigue properties: benefits of high gradient casting for single crystal airfoils. Superalloys 2012. :379–385.
.
2012. Protocols for High Temperature Assisted-Microwave Preparation of Inorganic Compounds. Chemistry of Materials. 31:7151–7159.
.
2019. A Pt-modified Ni-base superalloy with high temperature precipitate stability. Materials Science and Engineering: A. 639:747–754.
.
2015. Pulsed-terahertz reflectometry for health monitoring of ceramic thermal barrier coatings. Optics express. 18:3477–3486.
.
2010. Qualitative Characterization of a Thermal Barrier Coating System Using Femtosecond Laser-Induced Breakdown Spectroscopy. MATERIALS SCIENCE AND TECHNOLOGY-ASSOCIATION FOR IRON AND STEEL TECHNOLOGY-. 5:621.
.
2006. Quantitative Analysis of Correlated 3D Strontium Titanate Datasets Collected by TriBeam and Diffraction Contrast Tomography. Microscopy and Microanalysis. 21:2043–2044.
.
2015. Quantitative Benchmarking of Acoustic Emission Machine Learning Frameworks for Damage Mechanism Identification. Integrating Materials and Manufacturing Innovation. :1-12.
.
2023. Quantitative voxel-to-voxel comparison of TriBeam and DCT strontium titanate three-dimensional data sets. Journal of Applied Crystallography. 48:1034–1046.
.
2015. Rapid Assessment of Oxidation Behavior in Co-Based γ/γ′ Alloys. Oxidation of Metals. 90:485–498.
.
2018. rapid microwave preparation of thermoelectric TiNiSn and TiCoSb half-heusler compounds. Chemistry of Materials. 24:2558–2565.
.
2012. Rapid Screening of Single Phase Refractory Alloys Under Laser Melting Conditions. Materials & Design. :112726.
.
2024. Rate sensitivities for low temperature deformation in ruthenium aluminide alloys. Scripta materialia. 38:1065–1069.
.
1998. The Re (Ru)-rich $δ$-phase in Ru-containing superalloys. Materials Science and Engineering: A. 373:239–249.
.
2004. Real Time Synchrotron Radiography of High Temperature High Cycle Fatigue Crack Growth in Single-Crystal Nickel-Base Superalloys. Minerals, Metals and Materials Society/AIME, 420 Commonwealth Dr., P. O. Box 430 Warrendale PA 15086 USA.[np]. 14-18 Feb.
.
2010.