Scott Oppenheimer, Ph.D.

2007 Materials Science and Engineering Northwestern University, Evanston, IL 
Materials Science Engineering
"Scott Oppenheimer"


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David C. Dunand grad student 2007 Northwestern
 (Processing and characterization of porous titanium-aluminum(6)-vanadium(4) and nickel titanium.)
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Peterson B, Frias D, Brayshaw D, et al. (2012) On the development of cast ATI 718PLUS® alloy for structural gas turbine engine components Proceedings of the International Symposium On Superalloys. 787-794
Kearsey RM, Tsang J, Oppenheimer S, et al. (2012) Environmental and dwell effects on the damage tolerance properties of ATI 718PLUS® alloy Proceedings of the International Symposium On Superalloys. 741-749
Oppenheimer S, Dunand DC. (2010) Solid-state foaming of Ti-6A1-4V by creep or superplastic expansion of argon-filled pores Acta Materialia. 58: 4387-4397
Oppenheimer S, McDevitt E, Cao WD. (2010) Toughness as a function of thermo-mechanical processing and heat treatment in 718Plus® superalloy 7th International Symposium On Superalloy 718 and Derivatives 2010. 1: 321-330
Oppenheimer SM, Dunand DC. (2009) Porous NiTi by creep expansion of argon-filled pores Materials Science and Engineering A. 523: 70-76
Sargeant TD, Oppenheimer SM, Dunand DC, et al. (2008) Titanium foam-bioactive nanofiber hybrids for bone regeneration. Journal of Tissue Engineering and Regenerative Medicine. 2: 455-62
Sargeant TD, Guler MO, Oppenheimer SM, et al. (2008) Hybrid bone implants: self-assembly of peptide amphiphile nanofibers within porous titanium. Biomaterials. 29: 161-71
Oppenheimer SM, Dunand DC. (2007) Finite element modeling of creep deformation in cellular metals Acta Materialia. 55: 3825-3834
Shen H, Oppenheimer SM, Dunand DC, et al. (2006) Numerical modeling of pore size and distribution in foamed titanium Mechanics of Materials. 38: 933-944
Greiner C, Oppenheimer SM, Dunand DC. (2005) High strength, low stiffness, porous NiTi with superelastic properties. Acta Biomaterialia. 1: 705-16
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