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Nina Merkert
Nina Merkert
Other names(née Gunkelmann)
Institute of Applied Mechanics, Clausthal University of Technology
Verified email at gunkelmann.de
Title
Cited by
Cited by
Year
Polycrystalline iron under compression: Plasticity and phase transitions
N Gunkelmann, EM Bringa, K Kang, GJ Ackland, CJ Ruestes, ...
Physical Review B 86 (14), 144111, 2012
1132012
Shock waves in polycrystalline iron: Plasticity and phase transitions
N Gunkelmann, EM Bringa, DR Tramontina, CJ Ruestes, MJ Suggit, ...
Physical Review B 89 (14), 140102, 2014
732014
Shock waves in polycrystalline iron: plasticity and phase transitions
E Bringa, N Gunkelmann, C Ruestes, H Urbassek
APS Shock Compression of Condensed Matter Meeting Abstracts, 2013
73*2013
Molecular dynamics simulation of nanoindentation in Al and Fe: On the influence of system characteristics
HT Luu, SL Dang, TV Hoang, N Gunkelmann
Applied Surface Science 551, 149221, 2021
562021
Experimental and atomistic study of the elastic properties of α′ Fe–C martensite
N Gunkelmann, H Ledbetter, HM Urbassek
Acta Materialia 60 (12), 4901-4907, 2012
462012
Molecular-dynamics study of the α↔ γ phase transition in Fe–C
B Wang, E Sak-Saracino, N Gunkelmann, HM Urbassek
Computational Materials Science 82, 399-404, 2014
452014
Interplay of plasticity and phase transformation in shock wave propagation in nanocrystalline iron
N Gunkelmann, DR Tramontina, EM Bringa, HM Urbassek
New Journal of Physics 16 (9), 093032, 2014
362014
Compaction and plasticity in nanofoams induced by shock waves: A molecular dynamics study
N Gunkelmann, Y Rosandi, CJ Ruestes, EM Bringa, HM Urbassek
Computational Materials Science 119, 27-32, 2016
332016
Influence of porosity on collisions between dust aggregates
N Gunkelmann, C Ringl, HM Urbassek
Astronomy & Astrophysics 589, A30, 2016
332016
Influence of phase transition on shock-induced spallation in nanocrystalline iron
N Gunkelmann, EM Bringa, HM Urbassek
Journal of Applied Physics 118 (18), 2015
332015
Exceptionally high spallation strength for a high-entropy alloy demonstrated by experiments and simulations
D Thürmer, S Zhao, OR Deluigi, C Stan, IA Alhafez, HM Urbassek, ...
Journal of Alloys and Compounds 895, 162567, 2022
322022
Pressure-induced phase transformations in Fe-C: Molecular dynamics approach
HT Luu, N Gunkelmann
Computational Materials Science 162, 295-303, 2019
322019
Molecular Dynamics Simulations of Aluminum Foams under Tension: Influence of Oxidation
N Gunkelmann, EM Bringa, Y Rosandi
The Journal of Physical Chemistry C 122 (45), 26243-26250, 2018
262018
Morphological changes in polycrystalline Fe after compression and release
N Gunkelmann, DR Tramontina, EM Bringa, HM Urbassek
Journal of Applied Physics 117 (8), 2015
252015
Shock-induced plasticity in nanocrystalline iron: Large-scale molecular dynamics simulations
HT Luu, RJ Ravelo, M Rudolph, EM Bringa, TC Germann, D Rafaja, ...
Physical Review B 102 (2), 020102, 2020
232020
Can we obtain the coefficient of restitution from the sound of a bouncing ball?
M Heckel, A Glielmo, N Gunkelmann, T Pöschel
Physical Review E 93 (3), 032901, 2016
232016
Stochastic behavior of the coefficient of normal restitution
N Gunkelmann, M Montaine, T Pöschel
Physical Review E 89 (2), 022205, 2014
212014
Coefficient of restitution of aspherical particles
A Glielmo, N Gunkelmann, T Pöschel
Physical Review E 90 (5), 052204, 2014
202014
Atomistic Study of the Role of Defects on α→ ϵ Phase Transformations in Iron under Hydrostatic Compression
HT Luu, RGA Veiga, N Gunkelmann
Metals 9 (10), 1040, 2019
192019
Nanoscratching of iron: a novel approach to characterize dislocation microstructures
N Gunkelmann, IA Alhafez, D Steinberger, HM Urbassek, S Sandfeld
Computational Materials Science 135, 181-188, 2017
172017
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