Tias Maiti
Tias Maiti
Intel Corporation, Michigan State University
Verified email at msu.edu
Cited by
Cited by
DAMASK–The Düsseldorf Advanced Material Simulation Kit for modeling multi-physics crystal plasticity, thermal, and damage phenomena from the single crystal up to the component …
F Roters, M Diehl, P Shanthraj, P Eisenlohr, C Reuber, SL Wong, T Maiti, ...
Computational Materials Science 158, 420-478, 2019
Fourier-based spectral method solution to finite strain crystal plasticity with free surfaces
T Maiti, P Eisenlohr
Scripta Materialia 145, 37-40, 2018
Contraction twinning dominated tensile deformation and subsequent fracture in extruded Mg-1Mn (Wt Pct) at ambient temperature
A Chakkedath, T Maiti, J Bohlen, S Yi, D Letzig, P Eisenlohr, CJ Boehlert
Metallurgical and Materials Transactions A 49 (6), 2441-2454, 2018
Microstructure, stress and texture in sputter deposited TiN thin films: effect of substrate bias
J Chakraborty, T Maity, K Kumar, S Mukherjee
Advanced Materials Research 996, 855-859, 2014
A crystal plasticity study on influence of dislocation mean free path on stage II hardening in Nb single crystals
T Maiti, A Chakraborty, P Eisenlohr, D Kang, TR Bieler
Proceedings of the 18th International Conference on RF Superconductivity …, 2018
Heterogeneous deformation in high purity niobium
TR Bieler, M Wang, D Kang, D Baars, A Mapar, E Pai, T Maiti, P Garg, ...
TMS 2018, Phoenix, AZ, USA, 2018
Physics-Based Crystal Plasticity Modeling of Single Crystal Niobium
T Maiti
Ph. D. Thesis, 2017
How important are the smallest grains for their aggregate mechanics ?
T Maiti, P Eisenlohr
TMS 2017, San Diego, CA USA, 2017
A physics-based approach to crystal plasticity modeling of Niobium single crystals
T Maiti, A Chakraborty, P Eisenlohr, D Kang, TR Bieler
MS&T 2017, Pittsburgh, PA, USA, 2017
How Important are the Smallest Grains on Grain Aggregate Mechanics?
T Maiti, P Eisenlohr
TMS 2016, Nashville, TN, USA, 2016
Dislocation density-based crystal plasticity modeling of single crystal Niobium
T Maiti, M Wang, D Kang, P Eisenlohr, T Bieler
Dislocation 2016, Lafayette, IN, USA, 2016
Application of a Spectral Method Framework to Interrogate the Influences of Experimental Uncertainty on Crystal Plasticity
P Eisenlohr, T Maiti, C Zhang, HJ Phukan, TR Bieler, M Diehl, P Shanthraj, ...
MS&T 2015, Columbus, OH, USA, 2015
Numerically Robust Spectral Methods for Crystal Plasticity Simulations of Heterogeneous Materials
P Eisenlohr, T Maiti, P Shanthraj, M Diehl, F Roters
TMS 2015, Orlando, FL, USA, 2015
Cementite dissolution in cold drawn pearlitic steel wires: role of dislocations
J Chakraborty, T Maiti, M Ghosh, G Das, S Chandra
Materials Science Forum 768, 304-312, 2014
Spectral Methods for finite strain polycrystal plasticity
P Eisenlohr, P Shanthraj, M Diehl, JC Reuber, T Maiti, F Roters
ELLE Workshop 2014, Tübingen, Germany, 2014
High-resolution crystal plasticity of single crystal Nb
T Maiti, P Eisenlohr, D Kang, TR Bieler
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