Afrooz Barnoush
TitleCited byYear
Recent developments in the study of hydrogen embrittlement: hydrogen effect on dislocation nucleation
A Barnoush, H Vehoff
Acta Materialia 58 (16), 5274-5285, 2010
2332010
Correlation between dislocation density and nanomechanical response during nanoindentation
A Barnoush
Acta materialia 60 (3), 1268-1277, 2012
852012
In situ electrochemical nanoindentation: A technique for local examination of hydrogen embrittlement
A Barnoush, H Vehoff
Corrosion Science 50 (1), 259-267, 2008
852008
Electrochemical nanoindentation: A new approach to probe hydrogen/deformation interaction
A Barnoush, H Vehoff
Scripta materialia 55 (2), 195-198, 2006
752006
Resolving the hydrogen effect on dislocation nucleation and mobility by electrochemical nanoindentation
A Barnoush, M Asgari, R Johnsen
Scripta Materialia 66 (6), 414-417, 2012
732012
Bibliometric analysis of absorptive capacity
ID Apriliyanti, I Alon
International Business Review 26 (5), 896-907, 2017
662017
A review on the properties of iron aluminide intermetallics
M Zamanzade, A Barnoush, C Motz
Crystals 6 (1), 10, 2016
632016
Hydrogen embrittlement
A Barnoush
Saarland University, 2011
542011
Correlation between dislocation density and pop-in phenomena in aluminum studied by nanoindentation and electron channeling contrast imaging
A Barnoush, MT Welsch, H Vehoff
Scripta Materialia 63 (5), 465-468, 2010
542010
Microstructural characterization of pulsed plasma nitrided 316L stainless steel
M Asgari, A Barnoush, R Johnsen, R Hoel
Materials Science and Engineering: A 529, 425-434, 2011
532011
Examination of hydrogen embrittlement in FeAl by means of in situ electrochemical micropillar compression and nanoindentation techniques
A Barnoush, J Dake, N Kheradmand, H Vehoff
Intermetallics 18 (7), 1385-1389, 2010
492010
An insight into the role of the grain boundary in plastic deformation by means of a bicrystalline pillar compression test and atomistic simulation
N Kheradmand, H Vehoff, A Barnoush
Acta materialia 61 (19), 7454-7465, 2013
482013
In situ electrochemical microcantilever bending test: A new insight into hydrogen enhanced cracking
T Hajilou, Y Deng, BR Rogne, N Kheradmand, A Barnoush
Scripta Materialia 132, 17-21, 2017
472017
Hydrogen embrittlement of aluminum in aqueous environments examined by in situ electrochemical nanoindentation
A Barnoush, H Vehoff
Scripta Materialia 58 (9), 747-750, 2008
422008
Direct observation of hydrogen-enhanced plasticity in super duplex stainless steel by means of in situ electrochemical methods
A Barnoush, M Zamanzade, H Vehoff
Scripta materialia 62 (5), 242-245, 2010
392010
Hydrogen embrittlement, revisited by in situ electrochemical nanoindentation
A Barnoush
Verlag nicht ermittelbar, 2007
392007
Fracture assessment of polymethyl methacrylate using sharp notched disc bend specimens under mixed mode I+ III loading
MRM Aliha, F Berto, A Bahmani, S Akhondi, A Barnoush
Physical Mesomechanics 19 (4), 355-364, 2016
372016
Cr effect on hydrogen embrittlement of Fe3Al-based iron aluminide intermetallics: Surface or bulk effect
M Zamanzade, H Vehoff, A Barnoush
Acta materialia 69, 210-223, 2014
352014
In situ electrochemical nanoindentation of FeAl (100) single crystal: Hydrogen effect on dislocation nucleation
A Barnoush, C Bies, H Vehoff
Journal of Materials Research 24 (3), 1105-1113, 2009
352009
Hydrogen embrittlement revealed via novel in situ fracture experiments using notched micro-cantilever specimens
Y Deng, A Barnoush
Acta Materialia 142, 236-247, 2018
332018
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