Book Chapters

  • S. Ghosh, G. Weber, M. Pinz, A. Bagri, T. M. Pollock, W. Lenthe, J. C. Stinville, M.D. Uchic and C. Woodward, “Multi-Scale Microstructure and Property-based Statistically Equivalent RVEs for Modeling Nickel-based Superalloys”, in “Integrated Computational Materials Engineering (ICME): Advancing Computational and Experimental Methods”, S. Ghosh, C. Przybyla and C. Woodward (editors), pp. 55-90, Springer Nature Switzerland AG, March 2020, ISBN 978-3-030-40561-8.
  • S. Ghosh, D. V. Kubair and C. Przybyla, “Microstructural Statistics Informed Boundary Conditions for Statistically Equivalent Representative Volume Elements (SERVE) of Polydispersed Elastic Composites”, in “Integrated Computational Materials Engineering (ICME): Advancing Computational and Experimental Methods”, S. Ghosh, C. Przybyla and C. Woodward (editors), pp. 297-328, Springer Nature Switzerland AG, March 2020, ISBN 978-3-030-40561-8.
  • Cai and S. Ghosh, “Recent Advances in Crystal Plasticity Modeling”, Crystal Plasticity: Atomistics to Macroscale” in Handbook of Materials Modeling, 2nd edition, Methods: Theory and Modeling, S. Yip and W. Andreoni (editors), Springer International Publishing AG, Gewerbestrasse 11 6330 Cham, Switzerland, 2019.
  • Ghosh and M. A. Groeber, “Developing Virtual Microstructures and Statistically Equivalent Representative Volume Elements for Polycrystalline Materials”, Crystal Plasticity: Atomistics to Macroscale” in Handbook of Materials Modeling, 2nd edition, Methods: Theory and Modeling, S. Yip and W. Andreoni (editors), Springer International Publishing AG, Gewerbestrasse 11 6330 Cham, Switzerland, 2019.
  • S. Ghosh, “Advances in Computational Mechanics to Address Challenges in Crystal Plasticity FEM”, Crystal Plasticity: Atomistics to Macroscale” in Handbook of Materials Modeling, 2nd edition, Methods: Theory and Modeling, S. Yip and W. Andreoni (eds), Springer International Publishing AG, Gewerbestrasse 11 6330 Cham, Switzerland, 2019.
  • Zhang, Z. Li, D. O’Brien, and S. Ghosh, “Parametrically Homogenized Continuum Damage Mechanics (PHCDM) Models for Composites from Micromechanical Analysis”, The Minerals, Metals & Materials Series, Springer International, pp. 657-665, 2019.
  • J. Cheng and S. Ghosh, “Simulating Discrete Twin Evolution in Magnesium Using a Novel Crystal Plasticity Finite Element Model”, Magnesium Technology 2017, K. Solanki, D. Orlov, A. Singh, N.R. Neelameggham. (eds.), The Minerals, Metals & Materials Series, Springer International, pp. 167-174, 2017.
  • S. Ghosh and P. Chakraborty, “Microstructure sensitive fatigue crack nucleation in Titanium alloys using accelerated crystal plasticity FE simulations”, Materials with Internal Structure, P. Trovalusci (ed.), Springer International Publishing Switzerland, pp. 43-62, 2016.
  • S. Ghosh, S. Keshavarz and G. Weber, “Computational multiscale modeling of nickel based superalloys containing gamma-gamma precipitates”, Advanced Structural Materials, Vol. 57: Inelastic Behavior of Materials and Structures under Monotonic and Cyclic Loading, H. Altenbach and M. Brunig (eds), Springer, Vol. 57, pp. 67-96, 2015.
  • S. Ghosh, “Adaptive Concurrent Multi-level Modeling of Multi-scale Ductile Failure in Heterogeneous Metallic Materials”, Multiscale Modelling of Complex Materials: phenomenological, theoretical and computational aspects, T. Sadowsky and P. Trovalusci (eds.), CISM International Centre for Mechanical Sciences, Courses and Lectures, Vol. 556, Springer, Berlin. 2014.
  • P. Chakraborty and S. Ghosh, “Characterization of Load Sensitive Fatigue Crack Initiation in Ti-Alloys Using Crystal Plasticity Based FE Simulations” in Advanced Materials Modelling for Structures, Advanced Structured Materials Series, H. Altenbach and S. Kruch (co-editors), Vol. 19, pp 97-107,  2013, Springer.
  • S. Ghosh and P. Chakraborty, “Wavelet Transformation Induced Multi-Time Scaling Crystal Plasticity FEM for Cyclic Deformation in Polycrystalline Materials” in Scale transition in Crystal Plasticity”, S. Bouvier, P. Franciosi, O. Cazacu and I. Ionescu (editors), Wiley, August 2011.
  • S. Ghosh, “Multi-Scale Characterization and Domain Partitioning for Multi-Scale Analysis of Heterogeneous Materials” in Computational Methods for Microstructure-Property Relations, S. Ghosh and D. Dimiduk (co-editors), pp.99-150, Springer NY, January 2011.
  • S. Ghosh, M. Anahid and P. Chakraborty, “Modeling Fatigue Crack Nucleation Using Crystal Plasticity Finite Element Simulations and Multi-time Scaling” in Computational Methods for Microstructure-Property Relations”, S. Ghoshand D. Dimiduk (co-editors), pp. 497-554, Springer NY, January 2011.
  • S. Ghosh and M. Li, “Computational Analysis of Sheet Shearing Processes for Process Design” in ASM Handbook Volume 22B: Metals Process Simulation, D. Furrer and L. Semiatin and (eds.), October 2010.
  • S. Ghosh, “Adaptive Concurrent Multi-level Model for Multi-scale Analysis of Composite Materials Including Damage” in Multiscale Modeling and Simulation of Composite Materials and Structures, Y. Kwon, D.H. Allen and R. Talreja (eds.), pp. 83-164, Springer, 2008.
  • M. Groeber, M. Uchic, D. Dimiduk, Y. Bandhari and S. Ghosh, “Advances in computational modeling through the use of higher-level microstructure characterization” in High Performance Structures and Materials III, C. A. Brebbia (eds.), Vol. 85, pp. 331-341, WIT Press, 2006.
  • Williams and S. Ghosh “Thermo-mechanical processing improvements: Benefits and costs” in THERMEC’2003, PTS 1-5, T. Chandra, J.M. Torralba, T. Sakai, T (editors), Vol.: 426-4, pp. 4609-4615, Materials Science Forum, 2003. DOI: 10.4028/www.scientific.net/MSF.426-432.4609