ProfessorsProfessors of Johns Hopkins UniversitySomnath Ghosh

Somnath Ghosh

Johns Hopkins University

H-index: 66

North America-United States

About Somnath Ghosh

Somnath Ghosh, With an exceptional h-index of 66 and a recent h-index of 37 (since 2020), a distinguished researcher at Johns Hopkins University, specializes in the field of Computational Mechanics of Materials, Multiscale Modeling, Computational Mechanics, Materials Modeling, ICME.

His recent articles reflect a diverse array of research interests and contributions to the field:

Generative adversarial network (GAN) enabled Statistically equivalent virtual microstructures (SEVM) for modeling cold spray formed bimodal polycrystals

Coupled crystal plasticity phase-field model for ductile fracture in polycrystalline microstructures

Crack tip enhanced phase-field model for crack evolution in crystalline Ti6Al from concurrent crystal plasticity FE-molecular dynamics simulations

Parametrically upscaled crack nucleation model (PUCNM) for fatigue nucleation in titanium alloys containing micro-texture regions (MTR)

Cohesive zone phase field model for electromechanical fracture in multiphase piezoelectric composites

Self-consistent homogenization-based parametrically upscaled continuum damage mechanics model for composites subjected to high strain-rate loading

Data-Driven Bayesian Model for Predicting Fatigue Crack Nucleation in Polycrystalline Ni-based Superalloys

Statistically equivalent representative volume elements (SERVE) for material behaviour analysis and multiscale modelling

Somnath Ghosh Information

University	Johns Hopkins University
Position	M. G. Callas Chair Professor . Prev. Nordholt Prof. The Ohio State Univ.
Citations(all)	14235
Citations(since 2020)	4726
Cited By	11148
hIndex(all)	66
hIndex(since 2020)	37
i10Index(all)	200
i10Index(since 2020)	126
Email	Access Email
University Profile Page	Johns Hopkins University
Google Scholar	View Google Scholar Profile

Somnath Ghosh Skills & Research Interests

Computational Mechanics of Materials

Multiscale Modeling

Computational Mechanics

Materials Modeling

ICME

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