Nousha Kheradmand
Nousha Kheradmand
Researcher and Senior engineer at IPM, NTNU
Verified email at
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Hydrogen embrittlement in nickel, visited by first principles modeling, cohesive zone simulation and nanomechanical testing
A Alvaro, IT Jensen, N Kheradmand, OM Løvvik, V Olden
international journal of hydrogen energy 40 (47), 16892-16900, 2015
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
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
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
In-situ micro-cantilever bending test in environmental scanning electron microscope: Real time observation of hydrogen enhanced cracking
Y Deng, T Hajilou, D Wan, N Kheradmand, A Barnoush
Scripta Materialia 127, 19-23, 2017
Orientation Gradients at Boundaries in Micron‐Sized Bicrystals
N Kheradmand, H Vehoff
Advanced Engineering Materials 14 (3), 153-161, 2012
Effect of hydrogen on the hardness of different phases in super duplex stainless steel
N Kheradmand, R Johnsen, JS Olsen, A Barnoush
International Journal of Hydrogen Energy 41 (1), 704-712, 2016
Correlation between the hydrogen chemical potential and pop-in load during in situ electrochemical nanoindentation
A Barnoush, N Kheradmand, T Hajilou
Scripta Materialia 108, 76-79, 2015
In situ micromechanical testing in environmental scanning electron microscope: A new insight into hydrogen-assisted cracking
BRS Rogne, N Kheradmand, Y Deng, A Barnoush
Acta Materialia 144, 257-268, 2018
Effect of electrochemical charging on the hydrogen embrittlement susceptibility of alloy 718
X Lu, D Wang, D Wan, ZB Zhang, N Kheradmand, A Barnoush
Acta Materialia 179, 36-48, 2019
Microscopic incompatibility controlling plastic deformation of bicrystals
N Kheradmand, AF Knorr, M Marx, Y Deng
Acta Materialia 106, 219-228, 2016
Novel methods for micromechanical examination of hydrogen and grain boundary effects on dislocations
N Kheradmand, J Dake, A Barnoush, H Vehoff
Philosophical Magazine 92 (25-27), 3216-3230, 2012
Investigation of the role of grain boundary on the mechanical properties of metals
N Kheradmand, A Barnoush, H Vehoff
Journal of Physics: Conference Series 240 (1), 012017, 2010
In situ small-scale hydrogen embrittlement testing made easy: An electrolyte for preserving surface integrity at nano-scale during hydrogen charging
T Hajilou, MSB Hope, AH Zavieh, N Kheradmand, R Johnsen, ...
International Journal of Hydrogen Energy 43 (27), 12516-12529, 2018
Hydrogen enhanced cracking studies on Fe–3wt% Si single and bi-crystal microcantilevers
T Hajilou, Y Deng, N Kheradmand, A Barnoush
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2017
Grain boundary-dislocation interaction: A local investigation via micron-sized bicrystals
N Kheradmand
Small scale testing approach to reveal specific features of slip behavior in BCC metals
N Kheradmand, BR Rogne, S Dumoulin, Y Deng, R Johnsen, A Barnoush
Acta Materialia 174, 142-152, 2019
Hydrogen Embrittlement in Fe3% Si, Visited by Nanomechanical Testing and Cohesive Zone Simulation
V Olden, T Hajilou, N Kheradmand, A Barnoush, A Alvaro, V Osen
Material Performance in Hydrogen Environments, 2016
Hydrogen enhanced cracking studies by in‐situ electrochemical micro cantilever bending test
T Hajilou, A Barnoush, N Kheradmand
Analyzing the onset of plasticity in Fe‐3wt.% Si
N Kheradmand, S Dumoulin, A Barnoush
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