| People | Locations | Statistics |
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| Grohsjean, Alexander |
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| Falmagne, G. |
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| Erice, C. |
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| Hernandez, A. M. Vargas |
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| Leiton, A. G. Stahl |
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| Lipka, K. |
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| Pantaleo, F. |
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| Torterotot, L. |
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| Savina, M. |
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| Cerri, O. |
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| Jung, A. W. |
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| Chiarito, B. |
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| Sahin, M. O. |
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| Strong, G. |
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| Saradhy, R. |
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| Joshi, B. M. |
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| Kaynak, B. |
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| Barrera, C. Baldenegro |
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| Longo, Egidio |
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| Kolberg, Ted |
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| Ferguson, Thomas |
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| Leverington, Blake |
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| Haase, Fabian |
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| Heath, Helen F. |
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| Kokkas, Panagiotis |
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Schmauch, Jörg
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (8/8 displayed)
- 2023Degradation analysis of tribologically loaded carbon nanotubes and carbon onions
- 2023Continuous wet chemical synthesis of Mo(C,N,O)x as anode materials for Li-ion batteries†
- 2023Effects of Ultrashort Pulsed Direct Laser Writing on Ni/Al Reactive Multilayer Foils
- 2021Phase Transformation and Characterization of 3D Reactive Microstructures in Nanoscale Al/Ni Multilayerscitations
- 2021Microstructure analysis of electrospun La0.8Sr0.2MnO3 nanowires using electron microscopy and electron backscatter diffraction (EBSD)
- 2020Thermal stability, phase decomposition, and micro-fatigue properties of pulsed electrodeposited nanocrystalline Co-Cu
- 2019High strength nanocrystalline Cu–Co alloys with high tensile ductilitycitations
- 2016On the process of co-deformation and phase dissolution in a hard-soft immiscible CuCo alloy system during high-pressure torsion deformationcitations
Places of action
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conferencepaper
Thermal stability, phase decomposition, and micro-fatigue properties of pulsed electrodeposited nanocrystalline Co-Cu
Abstract
Nanocrystalline (nc) immiscible Co-Cu alloys system is a promising material where the decomposition of the super-saturated solid solution can be used to obtain nano-structured materials. In this research, homogenous and solid nc Co-Cu thick films were synthesized through the pulsed electrodeposition technique in complex sodium tartrate electrolyte. Annealing procedures were conducted to evaluate its thermal stability and induce phase decomposition of cobalt and copper, which can be utilized to enhance mechanical properties and thermal stability. Initial cyclic micro-bending experiments were also conducted to observe micro-fatigue properties and structural evolution during mechanical loading.