Papers in Proceedings

  • Md. Z. Alam, D. Eastman, G. Weber, S. Ghosh and K. Hemker, “Microstructural Aspects of Fatigue Crack Initiation and Short Crack Growth in René 88DT”, Proceedings of the 13th International Symposium of Superalloys, Superalloys, pp.561-568, October 2016. DOI: 10.1002/9781119075646.ch60.
  • X. Zhang, Z. Li, S. Ghosh and D. O’Brien, “Parametric Homogenization Based Continuum Damage Mechanics Model for Composites”, Proceedings of the 31st Annual Technical Conference of the American Society for Composites, pp. 384-398, DEStech Publications, Inc., Lancaster PA 17602-4967, USA, 2016.
  • S. Ghosh and S. Keshavarz, “Multi-scale crystal plasticity FEM approach to modeling Nickel-based Superalloys”, 55th AIAA/ASME/ASCE/AHS/SC Structures, Structural Dynamics, and Materials Conference: SciTech 2014, January 2014, DOI: 10.2514/6.2014-0796.
  • D. Paquet and S. Ghosh, “An adaptive multi-level model for multi-scale ductile fracture analysis in heterogeneous Aluminum alloys”, XII International Conference on Computational Plasticity. Fundamentals and Applications, COMPLAS XII, E. Onate, D.R.J. Owen, D. Peric and B. Suarez (eds), January 2013.
  • S. Ghosh and M. Samal, “Physically motivated dislocation density-based multi-scale approach for constitutive modeling of Nickel based super-alloys”, Proceedings of NSF CMMI Grantees Conference, January 2011.
  • S. Ghosh, “Multi-time scaling image based crystal plasticity FE models dwell fatigue initiation in polycrystalline Ti alloys”, Proceedings of the 1st World Congress on Integrated Computational Materials Engineering (ICME), J. Allison, P. Collins, G. Spanos (eds.), The Minerals, Metals & Materials Society, pp. 113-119, 2011.
  • S. Ghosh, D. Paquet and P. Dondeti, “Microstructural effects on plastic deformation and fracture in dendritic cast Aluminum alloys”, Proceedings of NSF CMMI Grantees Conference, January 2011.
  • S. Ghosh, D. Paquet and V. Dakshinamurthy, “Multi-scale characterization and modeling of ductile failure in cast Aluminum alloys”, Proceedings of 7th EUROMECH Solid Mechanics Conference, J. Ambrosio et. al. (eds.), 2009.
  • S. Ghosh and P. Chakraborty, “Modeling of dwell fatigue initiation in polycrystalline Ti alloys using multi-time scaling crystal plasticity FE models”, Proceedings of 10th International Conference on Computational Plasticity, COMPLAS X, E. Onate and D.R.J. Owen (eds.), 2009.
  • S. Ghosh, D. S. Joseph and P. Chakraborty, “Crystal plasticity models with multi-time scaling for cyclic deformation of polycrystalline metals”, Proceedings of 4th Multi-scale Materials Modeling Conference, A. El-Azab (ed), 2008.
  • S. Ghosh, V. Dakshinamurthy, C. Hu and J. Bai, “Multiscale characterization and multi-scale modeling of ductile fracture in cast Aluminum alloys”, Proceedings of the NSF Grantees Conference, 2008.
  • S. Ghosh and S. Manchiraju, “Crystal plasticity models with multi-time scaling for cyclic deformation of polycrystalline metals”, Proceedings of the Plasticity’07 Conference, A. Khan (ed.), 2007.
  • S. Ghosh, V. Dakshinamurthy and C. Hu, “Multiscale characterization and analysis of ductile fracture in cast Aluminum alloys”, Proceedings of the Plasticity’07 Conference, A. Khan (ed.), 2007.
  • S. Ghosh, V. Dakshinamurthy and C. Hu, “Multiscale characterization and analysis of ductile fracture in cast Aluminum alloys” (Extended abstract), Proceedings of the 17th US Army Solid Mechanics Symposium, B. Lamattina and R. Rajendran (eds.), 2007.
  • S. Ghosh and S. Li, “Extended Voronoi cell FEM (X-VCFEM) for failure evolution in composites by debonding and matrix cracking” (Extended abstract), Proceedings of the 17th US Army Solid Mechanics Symposium, B. Lamattina and R. Rajendran (eds.), 2007.
  • J. L. Volakis, K. Sertel and S. Ghosh, “Multiphysics tools for load bearing antennas incorporating novel materials”, 2nd European Conference on Antennas and Propagation (EuCAP 2007), Edinburgh, UK, November 2007.
  • S. Ghosh, Micromechanical and macroscopic models of ductile fracture in particle reinforced Aluminum’’, Proceedings of the International Congress on Computational Mechanics and Simulation, D. Maiti and S.K. Dwivedi (eds.), IIT Guwahati Press, 2006.
  • S. Ghosh and S. Manchiraju, Multi-time scale analysis of cyclic deformation in polycrystalline metals’’, Proceedings of the 3rd Multi-scale Materials Modeling Conference, P. Gumbsch (eds.), Freiburg, Germany, pp., 2006.
  • M. Groeber. S. Ghosh, Development of a robust 3D characterization-representation framework for modeling polycrystalline materials’’, Proceedings of the 3rd Multi-scale Materials Modeling Conference, P. Gumbsch (eds.), Freiburg, Germany, pp., 2006.
  • S. Ghosh and S. Li, A wavelet based Voronoi cell FEM for crack evolution in composite materials”, Proceedings of the 11th International Congress on Fracture, A. Carpinteri (eds.), Turin, Italy, pp. 4905-5001, 2005.
  • S. Ghosh,Multiple scale modeling for deformation and failure of heterogeneous materials”, Proceedings of the International Congress on Computational Mechanics and Simulation, NGR Iyengar and A. Kumar (eds.), IIT Kanpur Press, pp. 43-56, 2004.
  • S. GhoshModeling at the interface of mechanics and materials for composite and polycrystalline materials”, Proceedings ICTACEM 2004; Third International Congress on Theoretical, Applied, Computational and Experimental Mechanics, S. Bhattacharyya and S. Ghosh (eds.), IIT Kharagpur Press, pp. 10-11, 2004.
  • M. Asai and S. GhoshMultiple time scale modeling for cyclic deformation with crystal plasticity”, Materials Processing and Design: Modeling, Simulation and Application Proceedings of NUMIFORM, S. Ghosh, J. Castro and J.K. Lee (eds.), AIP Publishers, pp. 1725-1731, 2004.
  • M. Groeber, B. Haley, M. Uchic, and S. Ghosh, “Microstructural characterization using 3-D orientation data collected by an automated FIB-EBSD system”, Materials Processing and Design: Modeling, Simulation and Application Proceedings of NUMIFORM, S. Ghosh, J. Castro and J.K. Lee (eds.), AIP Publishers, pp. 1712-1718, 2004.
  • C. Hu, S. Moorthy and S. Ghosh, “A Voronoi cell finite element model for ductile damage in MMCs”, Materials Processing and Design: Modeling, Simulation and Application Proceedings of NUMIFORM, S. Ghosh, J. Castro and J.K. Lee (eds.), AIP Publishers, pp. 1893-1899, 2004.
  • S. Ghosh and C. Xie,Modeling cyclic deformation of HSLA steels using crystal plasticity”, Materials Processing and Design: Modeling, Simulation and Application Proceedings of NUMIFORM, S. Ghosh, J. Castro and J.K. Lee (eds.), AIP Publishers, pp 1717-1725, 2004.
  • P. Raghavan, J. Bai and S. Ghosh, “Multi-scale model for damage analysis in fiber-reinforced composites with debonding”, Materials Processing and Design: Modeling, Simulation and Application Proceedings of NUMIFORM, S. Ghosh, J. Castro and J.K. Lee (eds.), AIP Publishers, pp. 1911-1917, 2004.
  • J. C. Williams and S. Ghosh, Proceedings of Thermec 2003, Materials Science Forum, Vols. 426-432, TransTech Publications, Switzerland, pp. 4609-4616, 2003.
  • C.L. Xie, M. Groeber, R. Butler and S. Ghosh, “Computational simulations of tensile and fatigue tests of HSLA steel based on experiments”, Proceedings of SAE World Congress, SP-1736, pp. 97-110, 2003.
  • A. Khadke, M. Lambert, S. Ghosh and M. Li, “Experiments, material characterization and numerical simulations for modeling of the edge-shearing process for Aluminum alloys”, Proceedings of NSF Design Grantees Conference, January 2003.
  • D. Gardiner, S. Ghosh and M. Li, “Numerical simulations and experiments on the cold rolling process for Aluminum alloys”, Proceedings of NSF Design Grantees Conference, January 2002.
  • S. Ghosh and P. Raghavan, “An adaptive multilevel computational model for composite laminates”, Proceedings of ICTACEM 2001, Indian Institute of Technology, Kharagpur, India, December 2001.
  • S. Ghosh and P. Raghavan, “An adaptive multilevel computational model for composite laminates”, Advances in Computational Engineering & Science, Proceedings of International Conference on Computational Engineering Science, S. N. Atluri (ed), 2001.
  • S. Yotte and S. Ghosh, “PMMC cluster analysis’, modeling and simulation based engineering”, Proceedings of International Conference on Computational Engineering Science, S. N. Atluri (ed), 2001.
  • S. Ghosh and Y. Ling, “A microstructure based computational model for interfacial debonding in fiber reinforced composites”, Proceedings of SEM IX International Congress, Orlando, FL, June 2000, pp. 65-68, 2000.
  • F. Susagna, S. Yotte, J. Riss, D. Breysse and S. Ghosh, “Covariance and spatial distribution of particles in a metal matrix composite”, Proceedings of MECAMAT 2000, Centre De Morphologie Mathematique, Fontainebleau, France, 2000.
  • F. Susagna, S. Yotte, J. Riss, D. Breysse and S. Ghosh, “La covariance appliquee a l’analyse de la distribution spatialle de particules”, Proceedings of STERMAT 2000, Sixth International Conference on Stereology and Image Analysis in Material Science, Krakow, Poland, 2000.
  • M. Li, S. Ghosh, O. Richmond, H. Weiland and T.N. Rouns, “Dominant damage in particle reinforced Aluminum matrix composites”, The Integration of Materials, Process and Product Design, N. Zabaras, R. Becker, S. Ghosh, and L. Lalli (eds.), A.A. Balkema Publishers, Rotterdam, pp. 111-120, 1999.
  • Ch. PavanaChand and S. Ghosh, “A 3D Voronoi cell finite element model for particulate reinforced composites”, Modeling and Simulation Based Engineering, S.N. Atluri and P.E. O’Donoghue (eds.), Tech Science Press, pp. 1450-1455, 1998.
  • K. Lee, S. Moorthy and S. Ghosh, “Multiple scale computational model for damage in composite materials”, Modeling and Simulation Based Engineering, S.N. Atluri and P.E. O’Donoghue (eds.), Tech Science Press, pp. 1420-1425, 1998.
  • S. Moorthy and S. Ghosh, “Damage modeling in heterogeneous materials by the Voronoi cell finite element method”, Proceedings of 14th US Army Symposium on Solid Mechanics, K.R. Iyer and S-C. Chou (eds.), Battelle Press, pp. 3651-370, 1997.
  • S. Ghosh, “Multiple scale computational model for composite materials with microstructural damage”, Multiple Scale Analyses and Coupled Physical Systems, J. Salencon (ed.), Presses de lecole nationale des, pp. 263-274, 1997.
  • S. Ghosh, S. Moorthy and K.H. Lee, “Multiple scale elastic-plastic analysis of heterogeneous materials with the Voronoi cell finite element method”, Computational Methods in Micromechanics, S. Ghosh and M. Ostoja-Starzewskii (eds.), AMD- Vol. 212, ASME, pp. 87-106, 1995.
  • S. Moorthy and S. Ghosh, “Mesoscopic analysis of small deformation in heterogeneous materials using Voronoi cell finite element model”, Computational Mechanics’ 95 Theory and Applications, S. N. Atluri, G. Yagawa, and T. Cruse (eds.), pp. 1916-1921, 1995.
  • S. Raju and S. Ghosh, “Adaptive arbitrary Lagrangian-Eulerian finite element method for metal forming problems”, Computational Mechanics’ 95 Theory and Applications, S. N. Atluri, G. Yagawa, and T. Cruse (eds.), pp. 1414-1419, 1995.
  • S. Roy, S. Ghosh and R. Shivpuri, “FEM- micro genetic algorithm based approach to optimal design of multistage metal forming processes”, NUMIFORM’95 Simulation of Materials Processing: Theory, Methods and Applications, S.F. Shen and P. Dawson (eds.), Balkema Publishers, pp. 611-618, 1995.
  • S. Roy, S. Ghosh and R. Shivpuri, “Micro genetic algorithms based approach to optimal design of multi-stage metal forming processes”, Proceedings of the 1995 NSF Design and Manufacturing Grantees Conference, Soc. of Manufacturing Engineers, pp. 573-574, 1995.
  • S. Moorthy, S. Ghosh and Y.S. Liu, “Voronoi cell finite element model for random micropolar elastic-plastic heterogeneous media”, Proceedings of 13th Army Symposium on Solid Mechanics, S.C. Chou, F. D. Bartlett, T. W. Wright and K. Iyer (eds.), pp. 527-538, 1994.
  • S. Ghosh and S. Moorthy, “A Voronoi cell finite element model for random heterogeneous media”, Probabilities and Materials, Tests, Models and Applications, Proceedings of NATO Workshop PROBAMAT, NATO ASI Series, Vol. 269, pp. 273-284, 1994.
  • R. Shivpuri, D. Damodaran, S. Ghosh and S. Roy, “Computer aided approaches to improved quality in the extrusion of shapes and drawing of tubes”, Proceedings of Tenth Annual World Tube Congress, pp. 282-290 1994.
  • S. Ghosh, “Adaptive arbitrary Lagrangian-Eulerian finite element method in metal forming simulation”, MECAMAT’ 91 Large Plastic Deformations, Balkema Publishers, pp. 415-424, 1993.
  • S. Ghosh, “Heat transfer analysis of solidification processes by the Arbitrary Lagrangian-Eulerian finite element method”, Computational Methods in Materials Processing, MD- Vol. 39, ASME, pp. 159-170, 1992.
  • S. Ghosh and S. Moorthy, “An arbitrary Lagrangian-Eulerian finite element model for heat transfer analysis of solidification processes”, Numerical Methods In Industrial Processes, 92 J.L. Chenot, R.D. Wood and O.C. Zienkiewicz (eds.), Balkema Publishers, pp. 805-882, 1992.
  • S. Ghosh, “Finite deformation analysis involving contact of deformable bodies using the finite element method with arbitrary Lagrangian-Eulerian description”, Computer Modeling and Simulation Of Manufacturing Processes, MD- Vol.20, ASME, pp. 273-280, 1990.
  • S. Ghosh, “A new finite element description for simulation of metal forming processes”, NUMIFORM’89 Numerical Methods in Industrial Forming Processes, E.G. Thompson, R.D. Wood, O.C. Zienkiewicz and A. Samuelsson (eds.), Balkema Publishers, pp. 157-163, 1989.