Zabaras, Nicholas J. - Sibley School of Mechanical and Aerospace Engineering, Cornell University

• Modeling the growth and interaction of multiple dendrites in solidification using a
• Kernel PCA for Stochastic Input Model Xiang Ma , Nicholas Zabaras and Ilias Bilionis
• A stochastic multiscale framework for modeling flow through random heterogeneous
• A spectral stochastic approach to the inverse heat conduction problem
• Design of microstructure-sensitive properties in elasto-viscoplastic polycrystals using multi-scale homogenization techniques
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng. 45, 15691605 (1999)
• A coupled thermomechanical, thermal transport and segregation analysis of the solidification of Aluminum alloys on molds of uneven topographies
• Modeling multiscale diffusion processes in random heterogeneous media Basked Ganapathysubramanian, Nicholas Zabaras *
• UNCERTAINTY QUANTIFICATION IN ANALYSIS AND DESIGN OF STOCHASTIC CONTINUUM SYSTEMS
• Towards the Development of a Robust Computational Design Simulator for Metal Forming Processes1
• Inverse Design of Complex Continuum Transport Processes1 Rajiv Sampath2 and Nicholas Zabaras3
• Solidification of Aluminum Alloys Edited by TMS (The Minerals, Metals & Materials Society), 2004
• Proceedings of NHTC'00 34th National Heat Transfer Conference
• COMPUTATIONAL TECHNIQUES FOR THE ANALYSIS AND CONTROL OF ALLOY SOLIDIFICATION PROCESSES
• Classification and reconstruction of three-dimensional microstructures using
• INVERSE PROBLEMS AND TECHNIQUES IN METAL FORMING PROCESSES
• ASME conference, xxxx 2000 A GRADIENT BASED OPTIMIZATION FRAMEWORK FOR THE DESIGN OF SINGLE AND
• ADVANCED COMPUTATIONAL TECHNIQUES FOR THE DESIGN OF DEFORMATION PROCESSES
• A coupled thermomechanical, thermal transport and segregation analysis of the solidification of aluminum alloys on molds of uneven
• Robust control of continuum systems: A spectral approach N. Zabarasa
• A Continuum Sensitivity Analysis for the Design of Hot Metal Forming Processes1
• A non-intrusive stochastic Galerkin approach for modeling uncertainty propagation in
• Hierarchical Bayesian Models for Inverse Problems in Heat Conduction
• A continuum sensitivity method for the design of deformation processes of materials with ductile damage
• Computing mechanical response variability of polycrystalline microstructures through
• Kernel principal component analysis for stochastic input model generation
• 2009138th Annual Meeting & Exhibition Synthesis and Production of Ni-Mo Alloys for Hydrogen Production via
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng 2002; 55:13911437 (DOI: 10.1002/nme.543)
• Data-driven computational statistics and stochastic techniques for the robust design of continuum systems
• An information-theoretic approach for obtaining property PDFs from macro specifications of microstructural variability
• Evaluation of material strength in inelastic heterogeneous microstructures: A toolbox for virtual experimentation
• AN INFORMATION-THEORETIC MULTISCALE FRAMEWORK WITH APPLICATIONS TO POLYCRYSTAL MATERIALS
• ADJOINT VARIABLE METHOD FOR THE THERMAL DESIGN OF EUTECTIC DIRECTIONAL SOLIDIFICATION
• CFD MODELING AND SIMULATION IN MATERIALS PROCESSES Edited by TMS (The Minerals, Metals & Materials Society), 2004
• Web-site: http://www.mae.cornell.edu/zabaras E-mail: zabaras@cornell.edu
• ADVANCED COMPUTATIONAL TECHNIQUES FOR THE DESIGN OF DEFORMATION PROCESSES
• Materials Process Design and Control Laboratory Cornell University
• pp:1--21 (col.fig.: 2,3,4,5,9,10,11,12) PROD. TYPE: COM
• Uncertainty propagation in finite deformationsA spectral stochastic Lagrangian approach
• Microstructure Representation On The Design of Polycrystalline Materials with An Integration
• COMPUTATIONAL TECHNIQUES FOR THE ANALYSIS AND DESIGN OF OPEN-BOAT
• The effect of multiple sources of uncertainty on the convex hull of material properties of polycrystals
• Using ComputerApplications in the Foundry
• The main emphasis of this work is the development of inverse techniques for the solution of design problems in metal forming. In particular, in a given forming process,
• Sparse grid collocation schemes for stochastic natural convection problems
• Sibley School of Mechanical Aerospace Engineering
• STOCHASTIC AND DETERMINISTIC TECHNIQUES FOR COMPUTATIONAL DESIGN OF DEFORMATION PROCESSES
• Research Report MP-99-01 Cornell University
• Sparse Bayesian Kernels Techniques for the Solution of SPDEs
• Computing property variability of polycrystals induced by grain size and orientation uncertainties
• A stochastic variational multiscale method for diffusion in heterogeneous random media
• A Bayesian inference approach to the inverse heat conduction problem Jingbo Wang and Nicholas Zabaras1
• THE STEFAN PROBLEM: A STOCHASTIC ANALYSIS USING THE EXTENDED FINITE ELEMENT METHOD
• Acta Materialia 51 (2003) 56275646 www.actamat-journals.com
• Development of a Robust Computational Design Simulator for Industrial Deformation Processes
• A level set simulation of dendritic solidification with combined features of front
• Computational design of deformation processes for materials with ductile damage
• A stochastic variational multiscale method for diffusion in heterogeneous random media
• Proceedings of IMECE'02 2002 ASME International Mechanical Engineering Congress and Exposition
• PREFORM AND DIE DESIGN PROBLEMS IN METAL A Dissertation
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng 2000; 48:679720
• AN INFORMATION-THEORETIC MULTISCALE FRAMEWORK WITH APPLICATIONS TO POLYCRYSTALLINE MATERIALS
• An efficient Markov chain Monte Carlo simulation of a stochastic inverse radiation problem
• Multiscale computational modeling of alloy solidification L. Tan and Nicholas Zabaras
• A STABILIZED VOLUME-AVERAGING FINITE ELEMENT METHOD FOR FLOW IN POROUS MEDIA AND BINARY ALLOY SOLIDIFICATION SYSTEMS
• Linear analysis of texture-property relationships using process-based
• A level set simulation of dendritic solidification of multi-component alloys
• Adjoint methods for inverse free convection problems with application to solidi cation processes
• Shape optimization and preform design in metal forming Akkaram Srikanth, Nicholas Zabaras *
• PREFORM DESIGN IN METAL FORMING S. Badrinarayanan
• Multi-length scale design of deformation processes for control of orientation (texture) dependent properties
• Available online at www.sciencedirect.com International Journal of Mechanical Sciences 45 (2003) 325358
• Multiscale modeling of alloy solidification using a database approach
• A stabilized nite element method for the analysis of combined thermocapillary and
• Compurers & S~luclures Vol. 38, No. 3, pp. 361-376, 1991 Printed in Great Britain.
• A virtual environment for the interrogation of 3D polycrystalline microstructure including
• A Bayesian Approach to Multiscale Inverse Problems Using Sequential Monte Carlo Method
• EPD Congress 2004 Edited by M.E. Schlesinger TMS (The Minerals, Metals & Materials Society), 2004 On the Development of a Three-Dimensional Deformation Process Design
• Investigating Variability of Fatigue Indicator Parameters of Two-phase Nickel-based Superalloy Microstructures
• Commun. Comput. Phys. doi: 10.4208/cicp.200510.061210a
• This article appeared in a journal published by Elsevier. The attached copy is furnished to the author for internal non-commercial research
• An adaptive high-dimensional stochastic model representation technique for the solution of stochastic partial differential equations
• IOP PUBLISHING INVERSE PROBLEMS Inverse Problems 25 (2009) 035013 (27pp) doi:10.1088/0266-5611/25/3/035013
• An adaptive hierarchical sparse grid collocation algorithm for the solution of
• A Multi-length Scale Sensitivity Analysis for the Control of Texture-dependent Properties
• A non-linear dimension reduction methodology for generating data-driven
• uilding stochastic models in the face of limited information is a widely re-
• ScienceDirect TOP25 Hottest Articles Back to Top 25 Print
• Control of macrosegregation during the solidification of alloys using magnetic fields
• Probabilistic Engineering Mechanics 21 (2006) 193199 www.elsevier.com/locate/probengmech
• Design of microstructure-sensitive properties in elasto-viscoplastic polycrystals using
• A maximum entropy approach for property prediction of random microstructures
• Modelling dendritic solidification with melt convection using the extended finite element
• The continuum sensitivity method for the computational design of three-dimensional
• A thermomechanical study of the effects of mold topography on the solidification of Aluminum alloys
• Numerical study of macrosegregation in Aluminum alloys solidifying on uneven surfaces
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng 2005; :128 Prepared using nmeauth.cls [Version: 2002/09/18 v2.02]
• On the control of solidification using magnetic fields and magnetic field Baskar Ganapathysubramanian and Nicholas Zabaras1
• Control of solidification of non-conducting materials using tailored magnetic fields
• Using Bayesian statistics in the estimation of heat source in radiation Jingbo Wang and Nicholas Zabaras1
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng 2004; 60/5:138 Prepared using nmeauth.cls [Version: 2002/09/18 v2.02]
• Deformation process design for control of microstructure in the presence of dynamic recrystallization and grain
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng 2001; 52:11311163 (DOI: 10.1002/nme.245)
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng 2001; 50:24892520
• A functional optimization approach to an inverse magneto-convection problem
• Engineering with Computers (1999) 15: 3760 1999 Springer-Verlag London Limited
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng. 45, 399445 (1999)
• JOURNAL OF COMPUTATIONAL PHYSICS 140, 432452 (1998) ARTICLE NO. CP985893
• THE ADJOINT METHOD FOR THE INVERSE DESIGN OF SOLIDIFICATION PROCESSES WITH
• THE ADJOINT METHOD FOR THE DESIGN OF DIRECTIONAL BINARY ALLOY SOLIDIFICATION
• COMPUTATIONAL DESIGN OF DEFORMATION PROCESSES FOR THE CONTROL OF
• BAYESIAN COMPUTATIONAL TECHNIQUES FOR INVERSE PROBLEMS IN TRANSPORT PROCESSES
• VARIATIONAL MULTISCALE METHOD FOR STOCHASTIC THERMAL AND FLUID FLOW PROBLEMS
• MULTI-SCALE COMPUTATIONAL TECHNIQUES FOR DESIGN OF POLYCRYSTALLINE MATERIALS
• MULTISCALE MODELING OF SOLIDIFICATION OF MULTI-COMPONENT ALLOYS
• A MULTISCALE APPROACH FOR TAILORING THE MACRO-PROPERTIES OF
• AN EFFICIENT COMPUTATIONAL FRAMEWORK FOR UNCERTAINTY QUANTIFICATION IN
• Materials Process Design and Control Laboratory Cornell University
• An object-oriented approach to the nite
• Property Variability Stochastic Multiscale Analysis and Design
• AN INFORMATION-THEORETIC MULTISCALE FRAMEWORK WITH APPLICATIONS TO POLYCRYSTALLINE MATERIALS
• GRACM International Congress on Computational Mechanics Thessaloniki, 19-21 June 2008
• ADVANCED COMPUTATIONAL TECHNIQUES FOR MATERIALS-BY-DESIGN AFOSR CONTRACT NO. FA9550-04-1-0070
• MCWASP, Modeling of Casting, Welding and Advanced Solidification Processes XI TMS (The Minerals, Metals & Materials Society),
• MCWASP, Modeling of Casting, Welding and Advanced Solidification Processes XI TMS (The Minerals, Metals & Materials Society),
• ADVANCED COMPUTATIONAL TECHNIQUES FOR MATERIALS-BY-DESIGN AFOSR CONTRACT NO. FA9550-04-1-0070
• SPATIAL STATISTICS MODELS FOR STOCHASTIC INVERSE PROBLEMS IN HEAT CONDUCTION
• VARIATIONAL MULTISCALE STABILIZED FEM FORMULATIONS FOR STOCHASTIC ADVECTION-DIFFUSION EQUATIONS
• COMPUTATIONAL MECHANICS (Abstracts) WCCM VI in conjunction with APCOM'04, Sept. 5-10, 2004, Beijing, China
• COMPUTATIONAL MECHANICS (Abstracts) WCCM VI in conjunction with APCOM'04, Sept. 5-10, 2004, Beijing, China
• COMPUTATIONAL MECHANICS (Abstracts) WCCM VI in conjunction with APCOM'04, Sept. 5-10, 2004, Beijing, China
• COMPUTATIONAL MECHANICS WCCM VI in conjunction with APCOM'04, Sept. 5-10, 2004, Beijing, China
• Variational multiscale stabilized FEM formulations for stochastic advection-diffusion equations Velamur asokan Badri narayanana
• Spatial statistics models for stochastic inverse problems in heat conduction Jingbo Wanga
• A gradient optimization method for efficient design of three-dimensional deformation processes
• Representation and Classification of Microstructures using Statistical Learning Techniques
• Principal Investigator/Project Director: Prof. Nicholas Zabaras Institution: Cornell University, Ithaca, NY 14853-3801
• Principal Investigator/Project Director: Prof. Nicholas Zabaras Institution: Cornell University, Ithaca, NY 14853-3801
• NSF Grant Number: DMI-0113295 PI: Prof. Nicholas Zabaras Institution: Cornell University
• MELT FLOW CONTROL IN THE DIRECTIONAL SOLIDIFICATION OF BINARY ALLOYS
• ADVANCED COMPUTATIONAL TECHNIQUES FOR THE DESIGN OF DEFORMATION PROCESSES
• Pan Pacific Basin Workshop on Microgravity Sciences, 2001 Paper CG-1176
• ON THE CONTROL OF THE EFFECTS OF GRAVITY ON SOLIDIFICATION MICROSTRUCURES USING
• Inverse Techniques for the Design and Control of Solidi cation and Forming Processes Nicholas Zabaras
• Advanced inverse techniques for the design of directional solidi cation processes
• and DDII-9157189 Advanced Inverse Techniques
• Preform Design in Metal Forming S. Badrinarayanan, A. Constantinescu and N. Zabaras
• 2009138th Annual Meeting & Exhibition noticeable. Crack formation is well investigated in theory and many techniques
• Technical Program General Abstracts: Materials Processing and
• Technical Program Maintaining Consistent Conditions over a Wide Range of Material
• A non-linear dimension reduction methodology for generating data-driven stochastic input models1
• An adaptive hierarchical sparse grid collocation algorithm for the solution of stochastic differential equations1
• Sibley School of Mechanical Aerospace Engineering
• An information-learning approach for multiscale modeling of materials S. Sankaran and Nicholas Zabaras
• 7th World Congress on Computational Mechanics Los Angeles, California July 16-22, 2006
• TAILORED MAGNETIC FIELDS FOR CONTROLLED SEMICONDUCTOR Baskar Ganapathysubramanian and Nicholas Zabaras
• Maximum entropy approach for statistical modeling of three-dimensional polycrystal microstructures
• MODELING OF MICROSTRUCTURE EVOLUTION IN MULTICOMPONENT ALLOYS USING THE LEVEL SET METHOD WITH ADAPTIVE MESH
• On the analysis of finite deformations and continuum damage in materials with random properties
• On the synergy between classification of textures and process sequence Shankar Ganapathysubramanian
• POLYCRYSTALS AND COMPUTATIONAL DESIGN: IS THE CONTROL OF MICROSTRUCTURE-SENSITIVE PROPERTIES FEASIBLE?
• A stabilized finite element method using equal-order interpolation velocity-pressure elements for the simulation of directional
• Computational techniques for the design of solidification processes1,2 Nicholas Zabaras
• Nicholas Zabaras Rajiv Sampath
• ON INVERSE DESIGN FORMING PROBLEMS N. ZABARAS and S. BADRINARAYANAN
• InverseProblemsinMetalForming Inametalformingprocess,aworkpieceundergoesdefor-
• ANNUAL REPORT ARO Project: W911NF-04-1-0283 (David M. Stepp, ARO Program Manager)
• A hierarchical multiscale modeling of precipitation hardened nickel-based superalloys
• A statistical learning approach for the design of polycrystalline materials Veera Sundararaghavan1 and Nicholas Zabaras2*
• A seamless approach towards stochastic modeling: Sparse grid collocation and data
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng 2004; 60/7:124 Prepared using nmeauth.cls [Version: 2000/01/19 v2.0]
• Proceedings of 2011 NSF Engineering Research and Innovation Conference, Atlanta, Georgia Grant # 0757824 On the design of polycrystalline materials with an integration of multiscale
• MaterialsProcessDesign and ControlLaboratory Cornell University
• Molecular dynamics approach for investigation of grain boundary response with applications to continuum simulation of failure in nano-crystalline materials
• A stabilized stochastic finite element second-order projection method for modeling
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng. 44, 12271265 (1999)
• SURFACE TENSION Solid Meltvf
• Modeling diffusion in random heterogeneous media: Data-driven models, stochastic
• Sibley School of Mechanical Aerospace Engineering
• Author's personal copy A stochastic mixed finite element heterogeneous multiscale method
• AN OBJECT-ORIENTED IMPLEMENTATION OF DIE DESIGN PROBLEMS IN METAL FORMING
• Variational multiscale stabilized FEM formulations for transport equations
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng. 42, 11211144 (1998)
• Modeling the response of HCP polycrystals deforming by slip and twinning using a finite
• A CONTINUUM SENSITIVITY ANALYSIS OF LARGE DEFORMATIONS WITH APPLICATIONS TO METAL
• A proper orthogonal decomposition approach to microstructure model reduction in Rodrigues space with applications to the control of material properties
• A dynamic material library for the representation of single phase polyhedral
• COMPUTATIONAL MECHANICS WCCM VI in conjunction with APCOM'04, Sept. 5-10, 2004, Beijing, China
• Journal of Computational Physics 168, 384411 (2001) doi:10.1006/jcph.2001.6706, available online at http://www.idealibrary.com on
• INVERSE PROBLEMS IN HEAT TRANSFER Nicholas Zabaras
• Research Report MM-97-01 Sibley School of Mechanical
• Modeling the thermoelastic-viscoplastic response of polycrystals using a continuum
• A scalable framework for the solution of stochastic inverse problems using a sparse grid
• INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING Int. J. Numer. Meth. Engng. 2000; 48:239266
• Multi-Scale 2002 LNCC/MCT Computational design methods for an accelerated insertion of
• Level set method for simulating multi-phase multi-component dendritic solidification
• fn,, .I. Solids Srructures Vol. 31, No. 12/13, pp. 1829-1846, 1994 Elsevier Science Ltd
• COMPUTATIONAL MECHANICS WCCM VI in conjunction with APCOM'04, Sept. 5-10, 2004, Beijing, China
• A NUMERICAL INVESTIGATION OF DIRECTIONAL BINARY ALLOY SOLIDIFICATION PROCESSES USING
• Solving Stochastic Inverse Problems: A Sparse Grid
• On the synergy between texture classification and deformation process sequence selection for
• NSF GRANT # DMI-0113295 NSF PROGRAM NAME -Engineering Design Division
• Proceedings of IMECE'01 2001 ASME International Mechanical Engineering Congress and Exposition
• Freckle suppression in directional solidification of binary and multicomponent alloys using magnetic fields
• Computational design of multi-stage deformation processes Nicholas Zabaras
• A Markov Random Field model of contamination source identification in porous media flow
• A TWO-DIMENSIONAL FEM CODE FOR THE ANALYSIS OF LARGE DEFORMATIONS OF
• A continuum sensitivity analysis for shape optimization in the deformation processing of porous materials
• On the Development of Computational Design Finite Element Algorithms for Bulk Forming Processes1
• Design across length scales: A reduced-order model of polycrystal plasticity for the control
• Modeling diffusion in random heterogeneous media: Data-driven microstructure reconstruction models, stochastic collocation and the variational multiscale method1
• Using magnetic field gradients to control the directional solidification of alloys and the
• Multi-output Local Gaussian Process Regression: Applications to Uncertainty Quantification
• A Bayesian approach to multiscale inverse problems using the sequential Monte Carlo This article has been downloaded from IOPscience. Please scroll down to see the full text article.
• MULTIDIMENSIONAL ADAPTIVE RELEVANCE VECTOR MACHINES FOR UNCERTAINTY QUANTIFICATION
• A Multiscale Approach for Model Reduction of Random Microstructures