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Scott Oppenheimer
Scott Oppenheimer
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Title
Cited by
Cited by
Year
High strength, low stiffness, porous NiTi with superelastic properties
C Greiner, SM Oppenheimer, DC Dunand
Acta biomaterialia 1 (6), 705-716, 2005
3012005
Hybrid bone implants: self-assembly of peptide amphiphile nanofibers within porous titanium
TD Sargeant, MO Guler, SM Oppenheimer, A Mata, RL Satcher, ...
Biomaterials 29 (2), 161-171, 2008
2822008
Numerical modeling of pore size and distribution in foamed titanium
H Shen, SM Oppenheimer, DC Dunand, LC Brinson
Mechanics of materials 38 (8-10), 933-944, 2006
1542006
Titanium foam‐bioactive nanofiber hybrids for bone regeneration
TD Sargeant, SM Oppenheimer, DC Dunand, SI Stupp
Journal of tissue engineering and regenerative medicine 2 (8), 455-462, 2008
582008
Porous Titanium by Electro‐chemical Dissolution of Steel Space‐holders
PJ Kwok, SM Oppenheimer, DC Dunand
Advanced engineering materials 10 (9), 820-825, 2008
582008
Power-law creep in near-equiatomic nickel–titanium alloys
SM Oppenheimer, AR Yung, DC Dunand
Scripta Materialia 57 (5), 377-380, 2007
472007
Finite element modeling of creep deformation in cellular metals
SM Oppenheimer, DC Dunand
Acta Materialia 55 (11), 3825-3834, 2007
372007
Solid-state foaming of Ti–6Al–4V by creep or superplastic expansion of argon-filled pores
S Oppenheimer, DC Dunand
Acta materialia 58 (13), 4387-4397, 2010
362010
Lubrication processes for enhanced forgeability
S Oppenheimer, RMF Jones, JV Mantione, RS Minisandram, JP Thomas
US Patent 9,327,342, 2016
332016
Microstructural Effects on the Mechanical Properties of ATI 718Plus® Alloy
RM Kearsey, J Tsang, S Oppenheimer, E McDevitt
Jom 64, 241-251, 2012
322012
Porous NiTi by creep expansion of argon-filled pores
SM Oppenheimer, DC Dunand
Materials Science and Engineering: A 523 (1-2), 70-76, 2009
302009
Diffuse optical excitations in -acetate
SM Oppenheimer, AB Sushkov, JL Musfeldt, RM Achey, NS Dalal
Physical Review B 65 (5), 054419, 2002
302002
On the development of cast ATI 718Plus® alloy for structural gas turbine engine components
B Peterson, D Frias, D Brayshaw, R Helmink, S Oppenheimer, E Ott, ...
Superalloys 2014 conference. TMS, 2012
202012
Lubrication processes for enhanced forgeability
S Oppenheimer, RMF Jones, J Mantione, R Minisandram, JP Thomas
US Patent 10,207,312, 2019
142019
Porous, superelastic NiTi produced by powder-metallurgy
SM Oppenheimer, JG O'Dwyer, DC Dunand
TMS Lett 1, 93-4, 2004
132004
System and method for maintenance of a turbine assembly
DM Lipkin, SM Oppenheimer, M Zajkowski, T Danko
US Patent 10,738,616, 2020
112020
Effect of composition and microstructure on the fatigue and creep-fatigue behaviour of Allvac 718Plus alloy
J Tsang, RM Kearsey, P Au, D Seo, S Oppenheimer, W Cao
Materials at High Temperatures 27 (1), 79-88, 2010
102010
Additive manufacturing systems including a particulate dispenser and methods of operating such systems
LC Dial, AJ Vinciquerra, SM Oppenheimer
US Patent App. 15/859,910, 2018
92018
Diffusion bonding of Ti-6Al-4V sheet with Ti-6Al-4V foam for biomedical implant applications
B Hamilton, S Oppenheimer, DC Dunand, D Lewis
Metallurgical and Materials Transactions B 44, 1554-1559, 2013
92013
Environmental and Dwell Effects on the Damage Tolerance Properties of ATI 718Plus® Alloy
RM Kearsey, J Tsang, S Oppenheimer, E McDevitt
Superalloys 2012, 741-749, 2012
82012
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