Karim Ahmed
Zitiert von
Zitiert von
Phase field modeling of the effect of porosity on grain growth kinetics in polycrystalline ceramics
K Ahmed, CA Yablinsky, A Schulte, T Allen, A El-Azab
Modelling and Simulation in Materials Science and Engineering 21 (6), 065005, 2013
Phase field simulation of grain growth in porous uranium dioxide
K Ahmed, J Pakarinen, T Allen, A El-Azab
Journal of nuclear materials 446 (1-3), 90-99, 2014
Phase field modeling for grain growth in porous solids
K Ahmed, T Allen, A El-Azab
Journal of Materials Science 51 (3), 1261-1277, 2016
Diffuse interface modeling of void growth in irradiated materials. Mathematical, thermodynamic and atomistic perspectives
A El-Azab, K Ahmed, S Rokkam, T Hochrainer
Current opinion in solid state and materials science 18 (2), 90-98, 2014
Particle-grain boundary interactions: A phase field study
K Ahmed, M Tonks, Y Zhang, B Biner, A El-Azab
Computational Materials Science 134, 25-37, 2017
Grand-potential-based phase-field model for multiple phases, grains, and chemical components
LK Aagesen, Y Gao, D Schwen, K Ahmed
Physical Review E 98 (2), 023309, 2018
Quantifying elastic energy effects on interfacial energy in the Kim-Kim-Suzuki phase-field model with different interpolation schemes
LK Aagesen, D Schwen, K Ahmed, MR Tonks
Computational Materials Science 140, 10-21, 2017
High-Burnup-Structure (HBS): model development in MARMOT for HBS formation and stability under radiation and high temperature
K Ahmed, X Bai, Y Zhang, B Biner
Idaho National Lab.(INL), Idaho Falls, ID (United States), 2016
An experimentally validated mesoscale model of thermal conductivity of a UO 2 and BeO composite nuclear fuel
F Badry, R Brito, MG Abdoelatef, S McDeavitt, K Ahmed
Jom 71 (12), 4829-4838, 2019
An analysis of two classes of phase field models for void growth and coarsening in irradiated crystalline solids
K Ahmed, A El-Azab
Materials Theory 2 (1), 1-36, 2018
Assessment of marmot release 1.1: A mesoscale fuel performance code
D Schwen, P Chakraborty, LK Aagesen, Y Zhang, K Ahmed, ...
Research Report INL/EXT-16-39975, Idaho National Laboratory, 2016
Phase-field modeling of microstructure evolution in nuclear materials
K Ahmed, A El-Azab
Handbook of Materials Modeling: Applications: Current and Emerging Materials …, 2020
Overview of lower length scale model development for accident tolerant fuels regarding U3Si2 fuel and FeCrAl cladding
Y Zhang
Idaho National Lab.(INL), Idaho Falls, ID (United States), 2016
Phase field modeling of grain growth in porous polycrystalline solids
K Ahmed
Bonny G, Castin N and Terentyev D: Interatomic potential for studying ageing under irradiation in stainless steels: the FeNiCr model alloy 085004 Borgenstam A: see Malik A 085003
A Agrawal, R Mishra, L Ward, KM Flores, K Ahmed, CA Yablinsky, ...
Modelling Simul. Mater. Sci. Eng 21 (089901), 8pp, 2013
Phase field modeling of microstructure evolution in thermal barrier coating systems
K Ahmed
Mesoscale Modeling of High Burn-Up Structure Formation and Evolution in UO 2
MG Abdoelatef, F Badry, D Schwen, C Permann, Y Zhang, K Ahmed
Jom 71 (12), 4817-4828, 2019
Multi-Scale Modeling of Swelling in Accident-Tolerant U3Si2 Fuel
L Aagesen, K Ahmed, B Beeler, D Schwen, Y Zhang, D Andersson
Idaho National Lab.(INL), Idaho Falls, ID (United States), 2017
UO2 Grain Growth: Developing Phase Field Models for Pore Dragging, Solute Dragging and Anisotropic Grain Boundary Energies
K Ahmed, M Tonks, Y Zhang, B Biner
Idaho National Lab.(INL), Idaho Falls, ID (United States), 2016
MARMOT update for oxide fuel modeling
Y Zhang, D Schwen, P Chakraborty, C Jiang, L Aagesen, K Ahmed, ...
Idaho National Laboratory (INL), 2016
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