Somnath Ghosh
Johns Hopkins University
H-index: 66
North America-United States
Top articles of Somnath Ghosh
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Generative adversarial network (GAN) enabled Statistically equivalent virtual microstructures (SEVM) for modeling cold spray formed bimodal polycrystals | npj Computational Materials | Brayan Murgas Joshua Stickel Somnath Ghosh | 2024/2/7 |
Coupled crystal plasticity phase-field model for ductile fracture in polycrystalline microstructures | International Journal for Multiscale Computational Engineering | Thirupathi Maloth Somnath Ghosh | 2023 |
Crack tip enhanced phase-field model for crack evolution in crystalline Ti6Al from concurrent crystal plasticity FE-molecular dynamics simulations | European Journal of Mechanics-A/Solids | Kishore Appunhi Nair Somnath Ghosh | 2023/7/1 |
Parametrically upscaled crack nucleation model (PUCNM) for fatigue nucleation in titanium alloys containing micro-texture regions (MTR) | Acta Materialia | Jinlei Shen Vasisht Venkatesh Ryan Noraas Somnath Ghosh | 2023/6/15 |
Cohesive zone phase field model for electromechanical fracture in multiphase piezoelectric composites | Journal of Composite Materials | Preetam Tarafder Saikat Dan Somnath Ghosh | 2023/2 |
Self-consistent homogenization-based parametrically upscaled continuum damage mechanics model for composites subjected to high strain-rate loading | Journal of Composite Materials | Chandra Prakash Somnath Ghosh | 2023/2 |
Data-Driven Bayesian Model for Predicting Fatigue Crack Nucleation in Polycrystalline Ni-based Superalloys | Somnath Ghosh George Weber Maxwell Pinz | 2023 | |
Statistically equivalent representative volume elements (SERVE) for material behaviour analysis and multiscale modelling | Somnath Ghosh Dennis Dimiduk David Furrer | 2023/11/17 | |
A Data-Driven Bayesian Crack Nucleation Model for Fatigue in Nickel-based Superalloys | George R Weber Max Pinz Somnath Ghosh | 2022/5/31 | |
Parametrically-upscaled continuum damage mechanics (PUCDM) model for plain weave woven composites: Part I Model development | Composite Structures | Yanrong Xiao Xiaofan Zhang Somnath Ghosh | 2022 |
Adaptive wavelet-enhanced cohesive zone phase-field FE model for crack evolution in piezoelectric composites | Computer Methods in Applied Mechanics and Engineering | Saikat Dan Preetam Tarafder Somnath Ghosh | 2022/3/15 |
Investigating the molecular origins of deformation in polyurea | Polymer | Arunjyoti Sinha Roy Nilanjan Mitra Somnath Ghosh | 2022/12/2 |
Comparison of three state-of-the-art crystal plasticity based deformation twinning models for magnesium alloys | Computational Materials Science | Jiahao Cheng Hyuk Jong Bong Hua Qiao Xiaohua Hu Xin Sun | 2022/7/1 |
Data-driven Bayesian model-based prediction of fatigue crack nucleation in Ni-based superalloys | npj Computational Materials | Maxwell Pinz George Weber Jean Charles Stinville Tresa Pollock Somnath Ghosh | 2022/3/14 |
Efficient computational framework for image-based micromechanical analysis of additively manufactured Ti-6Al-4V alloy | Additive Manufacturing | M Pinz S Storck T Montalbano B Croom N Salahudin | 2022/12/1 |
Impact damage modeling in woven composites with two-level Parametrically-Upscaled Continuum Damage Mechanics Models (PUCDM) | Composites Part B: Engineering | Xiaofan Zhang Yanrong Xiao Christopher S Meyer Daniel J O’Brien Somnath Ghosh | 2022/1/14 |
Machine learning-enabled self-consistent parametrically-upscaled crystal plasticity model for Ni-based superalloys | Computer Methods in Applied Mechanics and Engineering | George Weber Maxwell Pinz Somnath Ghosh | 2022/12/1 |
Developing parametrically upscaled constitutive and crack nucleation models for the α/β Ti64 alloy | International Journal of Plasticity | Jinlei Shen Shravan Kotha Ryan Noraas Vasisht Venkatesh Somnath Ghosh | 2022/4/1 |
A microstructure-based porous crystal plasticity FE model for additively manufactured Ti-6Al-4V alloys | International Journal of Plasticity | Maxwell Pinz JT Benzing Adam Pilchak Somnath Ghosh | 2022/6/1 |
A self-consistent homogenization framework for dynamic mechanical behavior of fiber reinforced composites | Mechanics of Materials | Chandra Prakash Somnath Ghosh | 2022/1/10 |