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Deformation and strain storage mechanisms during high-temperature compression of a powder metallurgy nickel-base superalloy. Metallurgical and Materials Transactions A. 41:2002–2009.. 2010.
Single-crystal solidification of new Co–Al–W-base alloys. Intermetallics. 19:636–643.. 2011.
Experimental assessment of the Ru–Al–Ni ternary phase diagram at 1000 and 1100° C. Materials Science and Engineering: A. 430:266–276.. 2006.
Hybrid intermetallic Ru/Pt-modified bond coatings for thermal barrier systems. Surface and Coatings Technology. 202:349–361.. 2007.
Multilayered ruthenium-modified bond coats for thermal barrier coatings. Metallurgical and Materials Transactions A. 37:3347–3358.. 2006.
Intermetallic phases formed by ruthenium–nickel alloy interdiffusion. Intermetallics. 12:957–962.. 2004.
Thermal expansion behavior of ruthenium aluminides. Scripta Materialia. 50:845–848.. 2004.
Non-destructive evaluation of 3D microstructure evolution in strontium titanate. Journal of Applied Crystallography. 53:1–11.. 2020.
The Critical Role of Shock Melting in Ultrafast Laser Machining. Minerals, Metals and Materials Society/AIME, 420 Commonwealth Dr., P. O. Box 430 Warrendale PA 15086 United States.[np]. Feb.. 2011.
Creep and directional coarsening in single crystals of new $\gamma$–$\gamma$′ cobalt-base alloys. Scripta Materialia. 66:574–577.. 2012.
Creep-induced planar defects in L1 2-containing Co-and CoNi-base single-crystal superalloys. Acta Materialia. 82:530–539.. 2015.
High Temperature Creep of New L12 Containing Cobalt-Base Superalloys. Superalloys 2012. :823–832.. 2012.
Sub-nanometer Resolution Chemi-STEM EDS Mapping of Superlattice Intrinsic Stacking Faults in Co-based Superalloys. Microscopy and Microanalysis. 20:1028–1029.. 2014.
Dislocation injection in strontium titanate by femtosecond laser pulses. Journal of Applied Physics. 118:075901.. 2015.
High resolution energy dispersive spectroscopy mapping of planar defects in L1 2-containing co-base superalloys. Acta Materialia. 89:423–437.. 2015.
Carbides and grain defect formation in directionally solidified nickel-base superalloys. Advanced Technologies for Superalloy Affordability as held at the 2000 TMS Annual Meeting. :2000.. 2000.
Stabilization of thermosolutal convective instabilities in Ni-based single-crystal superalloys: Carbon additions and freckle formation. Metallurgical and Materials Transactions A. 32:1743–1753.. 2001.
Phase instabilities and carbon additions in single-crystal nickel-base superalloys. Materials Science and Engineering: A. 348:111–121.. 2003.
Predicting freckle formation in single crystal Ni-base superalloys. Journal of materials science. 39:7199–7205.. 2004.
Stabilization of thermosolutal convective instabilities in Ni-based single-crystal superalloys: Carbide precipitation and Rayleigh numbers. Metallurgical and Materials Transactions A. 34:1953–1967.. 2003.
Creep of $\alpha$ 2+ $\beta$ Titanium Aluminide Alloys. ISIJ International. 31:1139–1146.. 1991.
A sharp computational method for the simulation of the solidification of binary alloys. Journal of Scientific Computing. 63:330–354.. 2015.
Role of Non-metallic Inclusions and Twins on the Variability in Fatigue Life in Alloy 718 Nickel Base Superalloy. Superalloys 2020.. 2020.
Short crack propagation from cracked non-metallic inclusions in a Ni-based polycrystalline superalloy. Acta Materialia. 165:241–258.. 2019.