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Vignesh vivekanandan
Vignesh vivekanandan
Post doctoral research associate, Los Alamos National Laboratory
Verified email at purdue.edu
Title
Cited by
Cited by
Year
On the implementation of dislocation reactions in continuum dislocation dynamics modeling of mesoscale plasticity
V Vivekanandan, P Lin, G Winther, A El-Azab
Journal of the Mechanics and Physics of Solids 149, 104327, 2021
162021
On the computational solution of vector-density based continuum dislocation dynamics models: A comparison of two plastic distortion and stress update algorithms
P Lin, V Vivekanandan, K Starkey, B Anglin, C Geller, A El-Azab
International Journal of Plasticity 138, 102943, 2021
162021
A data driven approach for cross-slip modelling in continuum dislocation dynamics
V Vivekanandan, B Anglin, A El-Azab
International Journal of Plasticity 164, 103597, 2023
52023
Incorporating point defect generation due to jog formation into the vector density-based continuum dislocation dynamics approach
P Lin, V Vivekanandan, B Anglin, C Geller, A El-Azab
Journal of the Mechanics and Physics of Solids 156, 104609, 2021
52021
Statistics of internal stress fluctuations in dislocated crystals and relevance to density-based dislocation dynamics models
V Vivekanandan, JP Anderson, Y Pachaury, MS Mohamed, A El-Azab
Modelling and Simulation in Materials Science and Engineering 30 (4), 045007, 2022
42022
Situating the Vector Density Approach Among Contemporary Continuum Theories of Dislocation Dynamics
JP Anderson, V Vivekanandan, P Lin, K Starkey, Y Pachaury, A El-Azab
Journal of Engineering Materials and Technology 144 (1), 011014, 2022
32022
Crystal plasticity-inspired statistical analysis of dislocation substructures generated by continuum dislocation dynamics
P Lin, V Vivekanandan, G Castelluccio, B Anglin, A El-Azab
arXiv preprint arXiv:2111.12875, 2021
22021
Computational Modeling of Dislocation Microstructure Patterns at Small Strains Using Continuum Dislocation Dynamics
V Vivekanandan
Purdue University, 2023
2023
Implementation of a Viscoplastic Model to Predict the Stress Distribution Measured Using Nano-Mechanical Raman Spectroscopy
V Vivekanandan
Purdue University, 2017
2017
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Articles 1–9