surya r. kalidindi - The George W. Woodruff School of Mechanical
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SURYA R. KALIDINDI George W. Woodruff School of Mechanical Engineering surya.kalidindi@me.gatech.edu DOB: June 21, 1964 TECHNICAL AREAS OF EXPERTISE Physics-Based Multi-scale Models, Crystal Plasticity, Crystallographic Slip, Deformation Twinning, Texture Evolution, Finite Element Models, Computational Mechanics and Materials Science. Spectral Methods for Microstructure-Property-Processing Linkages, Microstructure Sensitive Design, n-point Statistics, Microstructure Hulls, Property Closures, Process Networks. Characterization of Local Anisotropic Mechanical Behavior in Heterogeneous Materials using Spherical Nanoindentation and extracting Indentation Stress-Strain Curves. Microstructure-Property Relationships in Bone, Bone Quality, Raman Spectroscopy. EDUCATION Ph. D. 1992 GPA 4.0/4.0 Massachusetts Institute of Technology Department of Mechanical Engineering Major: Mechanics and Materials Minor: Heat and Mass Transfer M.S. 1988 GPA 4.0/4.0 Case Western Reserve University Department of Civil Engineering Major: Structures B. Tech. 1985 GPA 9.1/10.0 Indian Institute of Technology, Madras Department of Civil Engineering POSITIONS HELD Georgia Institute of Technology Professor, Woodruff School of Mechanical Engineering, starting 1/10/12 Drexel University Professor, Mechanical Engineering & Mechanics Professor, Materials Science and Engineering Department Head, Mechanical Engineering & Mechanics Director of Centralized Research Facilities, Engineering Department Head, Materials Science and Engineering Associate Professor, Materials Science and Engineering Assistant Professor, Materials Science and Engineering April 2009 - 2012 Sept. 2001 - 2012 April 2009 - July 2011 Sept. 2007 - July 2011 Sept. 2000 - Aug. 2008 Sept. 1997 - Aug. 2001 Sept. 1992 - Aug. 1997 Visiting Professor/Sabbatical Appointments Tata Research Development and Design Center, Pune, India (8/2012) Ohio State University, Columbus, OH (7/2008) Army Research Laboratory, Aberdeen, MD (6/2001-8/2001) 1 Laboratoire de Physique et Mecanique des Matériaux (LPMM), Universite de Metz, Metz, France (7/2000) Florida State University-Florida Agricultural and Mechanical Univeristy, Tallahassee, Florida (12/1999-6/2000) Katholieke Universiteit, Departement Metaalkunde en Toegepaste Materiaallkunde, Leuven, Belgium (4/1999-9/1999) Johnson Matthey Electronics, Inc., Modeling Center, Spokane, Washington (7/1998 – 9/1998) ACCOMPLISHMENTS AS DREXEL MSE DEPARTMENT HEAD (2000-2008) The MSE department at Drexel University experienced tremendous growth during my tenure as the department head during 2000-2008. The undergraduate student numbers grew from 56 to over 90, the graduate student numbers grew from 35 to over 70, and the annual research expenditures grew from about $1.6M to about $4.5M. The growth of the department was recognized in the annual rankings by Academic Analysts, where it was ranked #10 nationally among Materials Science and Engineering programs in 2006. INVITED LECTURES/SEMINARS • National Institute of Standards and Technology, Gaithersburg, MD, Dec 3, 2012. • Army Research Laboratory, Aberdeen, MD, April 5, 2012. • Los Alamos National Laboratory, Los Alamos, NM, January 23, 2012. • Materials Science and Engineering, Ohio State University, Columbus, OH, January 13,2012. • Mechanical Engineering, Iowa State University, Ames, IA, September 27, 2011. • Mechanical Engineering, Georgia Institute of Technology, GA, August 25, 2011. • Aerospace and Mechanical Engineering, University of Notre Dame, IN, March 29, 2011. • Materials Science and Engineering, University of North Texas, TX, January 17, 2011. • Mechanical Engineering, Johns Hopkins University, Baltimore, MD, October 28, 2010. • Air Force Research Laboratory, Dayton, OH, May 13, 2010. • Rolls-Royce, Indianapolis, IN, January 11, 2010. • Department of Chemical Engineering and Materials Science, Michigan State University, October 1, 2009. • Department of Materials Science and Engineering and the Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA, April 13, 2009. • Knolls Atomic Power Laboratory, Schenectady, NY, October 16, 2008. • Department of Materials Science and Engineering, Georgia Tech., September 23, 2008. • Indian Institute of Science and Technology, Bangalore, July 10, 2008. • India Science Laboratory, General Motors, Bangalore, March 7, 2008. • Ohio State University, Columbus, OH, Feb. 29, 2008. • ONR Workshop, Washington DC, July 3, 2007. • Exxon-Mobil, Clinton, NJ, Seminar, June 21, 2007. • ONR Workshop, Washington DC, November 16, 2006. • Texas Tech University, Lubbock, Seminar, January 31, 2006. 2 • Institute of Technological Research in Sao Paulo (IPT) and The University of Sao Paulo (USP), Sao Paulo, Brazil, Nov 22-24, 2004. • AFOSR Workshop on Damage Prognosis of Metallic Materials, June 29, 2004. • University of Belgrade, Faculty of Mechanical Engineering Lecture, May 26, 2004; Rheology Seminar, Faculty of Mathematics, May 27, 2004. • Carnegie Mellon University, Seminar, April 25, 2003. • Johns Hopkins University, Seminar, March 2, 2001. • Florida State University-Florida Agricultural and Mechanical Engineering, Seminar, April 4, 2000; March 16, 1999. • Laboratoire de Physique et Mecanique des Matériaux (LPMM), Universite de Metz, June 16, 1999. • Katholieke Universitiet, Departement Metaalkunde en Toegepaste Materiaalkunde, April, 29, 1999; May 25, 1999; June 7, 1999; June 8, 1999. • Clemson University, Mechanical Engineering Seminar, March 12, 1999. • Los Alamos National Laboratory, Materials Science Laboratory Seminar, Los Alamos, New Mexico, February 22, 1999. • Johnson Matthey Electronics Incorporated, Spokane, Washington, September 28, 1998. • Department of Metallurgy, Indian Institute of Science, Bangalore, December 8, 1997. • Department of Neurosurgery, State University of New York at Buffalo, October 30, 1997. • Defense Metallurgical Research Laboratory, Hyderabad, India, October 4, 1997. • Clemson University, Bioengineering Colloquium, September 12, 1997. • Latrobe Steel Company, Latrobe, Pennsylvania, August 26, 1997. • ALTA Group, Johnson Matthey Electronics Inc., Fombell, Pennsylvania, August 25, 1997 • Army Research Laboratories, Aberbeen Proving Ground, Maryland, August 14, 1997. • University of Illinois at Urbana-Champaign, Department of Mechanical Engineering, January 28, 1997. • Johnson Matthey Electronics Incorporated, Spokane, Washington, January 22, 1997. • Drexel University, Department of Materials Engineering, February 26, 1992, November 8, 1995, January 27, 1997. • Harvard University, Applied Mechanics Colloquium, March 11, 1992. • University of Pennsylvania, Department of Mechanical Engineering and Applied Mechanics, February 25, 1992. • Massachusetts Institute of Technology, Department of Civil Engineering, February 13, 1992. • Purdue University, School of Industrial Engineering, February 4, 1992. SYMPOSIA CHAIRED/CO-CHAIRED 1. “Deformation: Focus Modeling”, Chair, ICOTOM16, Mumbai, India, 2011. 2. “CMC Thematic Symposium”, co-Organizer, ICCES, Nanjing, China, 2011. 3. “CMC Thematic Symposium”, co-Organizer, ICCES, Las Vegas, 2010. 4. “Symposium in Honor of Professor Brent Adams”, co-Organizer, MS&T, 2009. 5. “Multiscale Polycrystal Mechanics of Complex Microstructures”, co-Organizer, MRS Fall Meeting, 2009. 3 6. “Symposium in Honor of Lallit Anand on Polycrystal and Strain Gradient Plasticity”, coOrganizer, co-Chair, Plasticity 2009, St. Thomas. 7. “Materials By Design”, co-Chair, Plasticity 2008, Hawaii, 2008. 8. “Math 3”, co-Chair, International Conference in Composites Engineering (ICCE-15), Haikou, China, July 2007. 9. “Materials by Design in Honor of Professor Brent Adams”, Symposium co-Organizer and co-Chair, Plasticity 2006, July 2006, Halifax, Canada. 10. “Materials by Design”, Plasticity 2005, Kauai, Hawaii, 2005. 11. “Microstructure Sensitive Design”, Educational Workshop, Drexel University, December 2002. 12. “Dislocations and Plasticity”, Symposium W, Session W1, MRS Spring Meeting, April 2002. 13. “Materials by Design”, Symposium Co-Organizer, Sessions I-IV, Plasticity ’02, January 2002. 14. “Microstructure Evolution in Metals During Large Strains”, Symposium Organizer, Sessions I and II, Chair of Session I, Plasticity ’99, January 1999. 15. “Failure Modes in Heterogeneous Materials”, 35th Annual SES Meeting, September 1998. 16. "Plasticity and Microstructure Evolution I", Plasticity '97, July 1997. 17. "Symposium on Failure Mechanisms in Multiphase Materials-IV", ASME, International Mechanical Engineering Congress and Exposition, November, 1996. 18. "Evolution of Microstructure and Strain Localization", ASME Mechanics and Materials Conference, June 1996. 19. "Ceramics", International Symposia on Advanced Materials and Technology for the 21st Century, JIM/TMS Meeting, Honolulu, Hawaii, December 1995. 20. "Mechanical Behavior II", American Society For Composites Meeting, Ninth Technical Conference, University of Delaware, Newark, DE, September 1994. 21. "Implants", Thirteenth Southern Biomedical Engineering Conference, University of the District of Columbia, Washington, DC, April 1994. BOOKS/BOOK CHAPTERS 1. B. L. Adams, S. R. Kalidindi, and D. Fullwood, “Microstructure Sensitive Design for Performance Optimization”, Butterworth-Heinemann, 2012, ISBN-10: 0123969891, ISBN13: 978-0123969897. 2. S. R. Kalidindi, D. T. Fullwood, and B. L. Adams, “First-Order Microstructure Sensitive Design Based on Volume Fractions and Elementary Bounds”, Chapter 11 in Electron Backscatter Diffraction in Materials Science, 2nd Edition, Eds. A. Schwartz, M. Kumar, B. Adams, D. Field, Springer, NY, 2009. 3. D. T. Fullwood, S. R. Kalidindi, and B. L. Adams, “Second-Order Microstructure Sensitive Design Using 2-Point Spatial Correlations”, Chapter 12 in Electron Backscatter Diffraction in Materials Science, 2nd Edition, Eds. A. Schwartz, M. Kumar, B. Adams, D. Field, Springer, NY, 2009. 4. B. L. Adams, S. R. Kalidindi, and D. T. Fullwood, Microstructure Sensitive Design for Performance Optimization, second edition, BYU Academic Publishing, Provo, UT, 2008. 4 5. S. R. Kalidindi, “Micro-Mechanical Finite Element Models for Crystal Plasticity”, Chapter 26 in Continuum Scale Simulation of Engineering Materials, Eds. Raabe, Roters, Barlat, and Chen, Wiley-VCH Verlag GmbH & Co. KGaA, 2004. 6. S. R. Kalidindi, “Incorporation of Deformation Twinning in Crystal Plasticity Models” Chapter 27 in Continuum Scale Simulation of Engineering Materials, Eds. Raabe, Roters, Barlat, and Chen, Wiley-VCH Verlag GmbH & Co. KGaA, 2004. 7. B. L. Adams, S. R. Kalidindi, and D. T. Fullwood, Microstructure Sensitive Design for Performance Optimization, BYU Academic Publishing, Provo, UT, 2005. ARCHIVAL JOURNAL PAPERS [h-index = 41; currently ~600 citations/year based on Google Scholar] 1) E. A. Wargo, V. P. Schulz, A. Çeçen, S. R. Kalidindi, E. C. Kumbur, “Resolving Macroand Micro-porous Layer Interaction in Polymer Electrolyte Fuel Cells using Focused-Ion Beam and X-ray Computed Tomography”, Electrochimica Acta, in press, 2012. 2) J. H. Panchal, S. R. Kalidindi, and D. L. McDowell, “Key Computational Modeling Issues in Integrated Computational Materials Engineering”, Journal of Computer-Aided Design, in press, 10.1016/j.cad.2012.06.006, 2012. 3) H. F. Al-Harbi, G. Landi, and S. R. Kalidindi, “Multi-scale modeling of the elastic response of a structural component made from a composite material using the materials knowledge system”, Modelling and Simulation in Materials Science and Engineering, 20, 055001, doi:10.1088/0965-0393/20/5/055001, 2012. 4) S. R. Kalidindi, “Computationally-Efficient Fully-Coupled Multi-Scale Modeling of Materials Phenomena Using Calibrated Localization Linkages”, ISRN Materials Science, 2012, Article ID 305692, doi:10.5402/2012/305692, 2012. 5) A. Levinson, R. K. Mishra, R. D. Doherty, S. R. Kalidindi, “Microstructure Evolution during Roller Hemming of AZ31B Magnesium Sheet”, Metallurgical and Materials Transactions A, 43 (10), pp. 3824-3833, 2012. 6) S. Pathak, S. J. Vachhani, K. J. Jepsen, H. M. Goldman, S. R. Kalidindi, “Assessment of lamellar level properties in mouse bone utilizing a novel spherical nanoindentation data analysis method”, Journal of the Mechanical Behavior of Biomedical Materials, 13, pp. 102–117, 2012. 7) S. M. Qidwai, D. M. Turner, S. R. Niezgoda, A. C. Lewis, A. B. Geltmacher, D. J. Rowenhorst, and S. R. Kalidindi, “Estimating response of polycrystalline materials using sets of weighted statistical volume elements”, Acta Materialia, 60, pp. 5284–5299, 2012. 8) B. R. Donohue, A. Ambrus, and S. R. Kalidindi, “Critical evaluation of the indentation data analyses methods for the extraction of isotropic uniaxial mechanical properties using finite element models”, Acta Materialia, 60, pp. 3943–3952, 2012. 9) A. Cecen, E. A. Wargo, A. C. Hanna, D. M. Turner, S. R. Kalidindi, and E. C. Kumbur, “3D Microstructure Analysis of Fuel Cell Materials via Focused Ion Beam Scanning Electron Microscope Tomography: Spatial Distributions of Tortuosity, Void Size, and Diffusivity”, Journal of The Electrochemical Society, 159, pp. B299-B307, 2012. 5 10) E. A. Wargo, A. C. Hanna, A. Cecen, S. R. Kalidindi, and E. C. Kumbur, “Selection of Representative Volume Elements for Pore-Scale Analysis of Transport in Fuel Cell Materials”, Journal of Power Sources, 197, pp. 168– 179, 2012. 11) S. Pathak, J. Michler, K. Wasmer, and S. R. Kalidindi, “Studying Grain Boundary Regions in Polycrystalline Materials Using Spherical Nano-Indentation and Orientation Imaging Microscopy”, Journal of Materials Science, 47, pp. 815-823, 2012. 12) S. R. Kalidindi, S. R. Niezgoda, and A. A. Salem, “Microstructure informatics using higher-order statistics and efficient data-mining protocols”, JOM, 63, pp. 34-41, 2011. 13) D. L. McDowell, S. Ghosh S., and S. R. Kalidindi “Representation and computational structure-property relations of random media”, JOM, 63, pp. 45-51, 2011. 14) S. R. Niezgoda, Y. C. Yabansu and S. R. Kalidindi, “Understanding and Visualizing Microstructure and Microstructure Variance as a Stochastic Process”, Acta Materialia, 59, pp. 6387-6400, 2011. 15) T. Fast and S. R. Kalidindi, “Formulation and Calibration of Higher-Order Elastic Localization Relationships Using the MKS Approach”, Acta Materialia, 59, pp. 45954605, 2011. 16) T. Fast, S. R. Niezgoda, and S. R. Kalidindi, “A New Framework for Computationally Efficient Structure-Structure Evolution Linkages to Facilitate High Fidelity Scale Bridging in Multi-scale Materials Models”, Acta Materialia, 59, pp. 699-707, 2011. 17) S. Pathak, J. G. Swadener, S. R. Kalidindi, H. Courtland, K. J. Jepsen, and H. M. Goldman, “Measuring the dynamic mechanical response of hydrated mouse bone by nanoindentation”, Journal of the Mechanical Behavior of Biomedical Materials, 4, pp. 3443, 2011. 18) G. Landi and S. R. Kalidindi, “Thermo-elastic localization relationships for multi-phase composites”, Computers, Materials & Continua, 16, pp. 273-293, 2010. 19) M. Knezevic, A. Levinson, R. Harris, R. K. Mishra, R. D. Doherty, and S. R. Kalidindi, “Deformation Twinning in AZ31: Influence on Strain Hardening and Texture Evolution”, Acta Materialia, 58, pp. 6230-6242, 2010. 20) J. B. Shaffer, M. Knezevic, and S. R. Kalidindi, “Building texture evolution networks for deformation processing of polycrystalline FCC metals using spectral approaches: Applications to process design for targeted performance”, International Journal of Plasticity, 26, pp. 1183-1194, 2010. 21) S. R. Kalidindi, S. R. Niezgoda, G. Landi, S. Vachhani, and T. Fast, “A Novel Framework for Building Materials Knowledge Systems”, Computers, Materials & Continua, 17, pp. 103-125, 2010. 22) H. F. Al-Harbi, M. Knezevic, and S. R. Kalidindi, “Spectral Approaches for the Fast Computation of Yield Surfaces and First-Order Plastic Property Closures for Polycrystalline Materials with Cubic-Triclinic Textures”, Computers, Materials & Continua, 15, pp.153-172, 2010. 23) S. R. Niezgoda, D. M. Turner, D. T. Fullwood, and S. R. Kalidindi, “Optimized Structure Based Representative Volume Element Sets Reflecting the Ensemble Averaged 2-Point Statistics”, Acta Materialia, 58, pp. 4432-4445, 2010. 6 24) D. T. Fullwood, S. R. Niezgoda, B. L. Adams, S. R. Kalidindi, “Microstructure Sensitive Design for Performance Optimization”, Journal of Progress in Materials Science, 55, pp. 477-562, 2010. 25) G. Landi, S. R. Niezgoda, and S. R. Kalidindi, “Multi-scale modeling of elastic response of three-dimensional voxel-based microstructure datasets using novel DFT-based knowledge systems”, Acta Materialia, 58, pp. 2716-2725, 2010. 26) S. R. Niezgoda and S. R. Kalidindi, “Applications of the Phase-Coded Generalized Hough Transform to Feature Detection, Analysis, and Segmentation of Digital Microstructures”, Computers, Materials & Continua, 14, pp. 79-97, 2009. 27) S. R. Kalidindi, M. Knezevic, S. Niezgoda, and J. Shaffer, “Representation of Orientation Distribution Function and Computation of First-Order Elastic Properties Closures Using Discrete Fourier Transforms”, Acta Materialia, 57, pp. 3916-3923, 2009. 28) S. Pathak, Z. G. Cambaz, S. R. Kalidindi, J. G. Swadener, Y. Gogotsi, “Viscoelasticity and High Buckling Stress of Dense Carbon Nanotube Brushes”, Carbon, 47, pp. 1969-1976, 2009. 29) S. Pathak, D. Stojakovic, and S. R. Kalidindi, “Measurement of the Local Mechanical Properties in Polycrystalline Samples Using Spherical Nano-Indentation and Orientation Imaging Microscopy”, Acta Materialia, 57, pp. 3020-3028, 2009. 30) D. T. Fullwood, S. R. Kalidindi, B. L. Adams, S. Ahmadi, “A Discrete Fourier Transform Framework for Localization Relations”, Computers, Materials & Continua, 9, pp. 25-39, 2009. 31) M. Knezevic, H. F. Al-Harbi, and S. R. Kalidindi, “Crystal Plasticity Simulations Using Discrete Fourier Transforms”, Acta Materialia, 57, pp. 1777-1784, 2009. 32) S. R. Kalidindi, B. R. Donohue, and S. Li, “Modeling Texture Evolution in Equal Channel Angular Extrusion Using Crystal Plasticity Finite Element Models”, International Journal of Plasticity, 25, pp. 768-779, 2009. 33) S. Pathak, D. Stojakovic, R. D. Doherty, and S. R. Kalidindi, “Importance of Surface Preparation on the Nano-Indentation Stress-Strain Curves Measured in Metals”, Journal of Materials Research, 24, pp. 1142-1155, 2009. 34) S. Pathak, J. Shaffer, and S. R. Kalidindi, “Determination of an Effective Zero-point and Extraction of Indentation Stress-Strain Curves without the Continuous Stiffness Measurement Signal”, Scripta Materialia, 60, pp. 439-442, 2009. 35) X. Wu, S. R. Kalidindi, C. Necker and A. A. Salem, “Modeling anisotropic stress-strain response and crystallographic texture evolution in -titanium during large plastic deformation using Taylor-type models: Influence of initial texture and purity”, Metallurgical and Materials Transactions A, 39A, pp. 3046-3054, 2008. 36) D. T. Fullwood, S. R. Kalidindi, S. R. Niezgoda, A. Fast, and N. Hampson, “Gradientbased Microstructure Reconstructions from Distributions Using Fast Fourier Transforms”, Materials Science and Engineering A, 494, pp. 68-72, 2008. 37) S. R. Niezgoda, D. T. Fullwood, and S. R. Kalidindi, “Delineation of the space of 2-point correlations in a composite material system”, Acta Materialia, 56, pp. 5285-5292, 2008. 7 38) S. R. Kalidindi, G. Landi, and D. T. Fullwood, “Spectral Representation of Higher-Order Localization Relationships for Elastic Behavior of Polycrystalline Cubic Materials”, Acta Materialia, 56, pp. 3843-3853, 2008. 39) S. R. Kalidindi and S. Pathak, “Determination of the effective zero-point and the extraction of spherical nanoindentation stress-strain curves”, Acta Materialia, 56, pp. 3523-3532, 2008. 40) T. Fast, M. Knezevic and S. R. Kalidindi, “Application of Microstructure Sensitive Design to Structural Components Produced from Hexagonal Polycrystalline Metals”, Computational Materials Science, 43, pp. 374-383, 2008. 41) S. Pathak, S. R. Kalidindi, B. Moser, C. Klemenz, and N. Orlovskaya, “Analyzing Indentation Behavior of LaGaO3 Single Crystals using Sharp Indenters”, Journal of the European Ceramic Society, 28, pp. 2039-2047, 2008. 42) S. Pathak, S. R. Kalidindi, C. Klemenz, and N. Orlovskaya, “Analyzing Indentation StressStrain Response of LaGaO3 Single Crystals using Spherical Indenters”, Journal of the European Ceramic Society, 28, pp. 2213-2220, 2008. 43) D. Stojakovic, R. D. Doherty, S. R. Kalidindi, F. J. G. Landgraf, “Thermomechanical Processing for Recovery of Desired <001> Fiber Texture in Electric Motor Steels”, Metallurgical and Materials Transactions, 39A, pp. 1738-1746, 2008. 44) M. Binci, D. Fullwood, and S. R. Kalidindi, “A new spectral framework for establishing localization relationships for elastic behavior of composites and their calibration to finite element models”, Acta Materialia, 56, pp. 2272-2282, 2008. 45) M. Knezevic, S. R. Kalidindi, and D. Fullwood, “Computationally efficient database and spectral interpolation for fully plastic Taylor-type crystal plasticity calculations of facecentered cubic polycrystals”, International Journal of Plasticity, 24, pp. 1264-1276, 2008. 46) D. T. Fullwood, B. L. Adams, S. R. Kalidindi, “A Strong Contrast Homogenization Formulation for Multi-phase Anisotropic Materials”, Journal of the Mechanics and Physics of Solids, 56, pp. 2287-2297, 2008. 47) D. T. Fullwood, S. R. Niezgoda and S. R. Kalidindi, “Microstructure reconstructions from 2-point statistics using phase recovery algorithms”, Acta Materialia, 56, pp. 942-948, 2008. 48) M. Knezevic, S. R. Kalidindi, and R. K. Mishra, “Delineation of First-Order Closures for Plastic Properties Requiring Explicit Consideration of Strain Hardening and Crystallographic Texture Evolution”, International Journal of Plasticity, 24, pp. 327-342, 2008. 49) S. Li, B. R. Donohue, and S. R. Kalidindi, “A crystal plasticity finite element analysis of cross-grain deformation heterogeneity in equal channel angular extrusion and its implications for texture evolution”, Materials Science and Engineering A, 480, pp. 17-23, 2008. 50) J. R. Houskamp, G. Proust, and S. R. Kalidindi, “Integration of Microstructure Sensitive Design with Finite Element Methods: Elastic-Plastic Case Studies in FCC Polycrystals”, International Journal of Multiscale Computational Engineering, 5, pp. 261-272, 2007. 51) S. R. Kalidindi, D. T. Fullwood, “Spectral methods for microstructure design”, JOM, 59, pp. 26-31, 2007. 8 52) H. K. Duvvuru, X. Wu, and S. R. Kalidindi, “Calibration of Elastic Localization Tensors to Finite Element Models: Application to Cubic Polycrystals”, Computational Materials Science, 41, pp. 138-144, 2007. 53) S. R. Kalidindi and J. R. Houskamp, “Application of the Spectral Methods of Microstructure Design to Continuous Fiber Reinforced Composites”, Journal of Composite Materials, 41, pp. 909-930, 2007. 54) X. Wu, G. Proust, M. Knezevic and S.R. Kalidindi, “Elastic–plastic property closures for hexagonal close-packed polycrystalline metals using first-order bounding theories”, Acta Materialia, 55, pp. 2729-2737, 2007. 55) M. Knezevic and S. R. Kalidindi, “Fast Computation of First-Order Elastic-Plastic Closures for Polycrystalline Cubic-Orthorhombic Microstructures”, Computational Materials Science, 39, pp. 643-648, 2007. 56) D. T. Fullwood, B. L. Adams, and S. R. Kalidindi, “Generalized Pareto Front Methods Applied to Second-order Material Property Closures”, Computational Materials Science, 38, pp. 788-799, 2007. 57) H. K. Duvvuru, M. Knezevic, R. K. Mishra, and S. R. Kalidindi, “Application of Microstructure Sensitive Design to FCC Polycrystals”, Materials Science Forum, 546-549, pp. 675-680, 2007. 58) R. D. Doherty, D. Stojakovic, F. J. G. Landgraf, and S. R. Kalidindi, “Retention of the <001> Fiber Texture for Fe-Si Electric Motor Steels”, Materials Science Forum, 550, pp. 497-502, 2007. 59) X. Wu, S. R. Kalidindi, C. Necker, and A. A. Salem, “Prediction of crystallographic texture evolution and anisotropic stress-strain curves during large plastic strains in high purity titanium using a Taylor-type crystal plasticity model”, Acta Materialia, 55, pp. 423-432, 2007. 60) L. Delannay, P. J. Jacques, and S. R. Kalidindi, “Finite Element Modeling of Crystal Plasticity with Grains Shaped as Truncated Octahedrons”, International Journal of Plasticity, 22, pp. 1879-1898, 2006. 61) A. A. Salem, T. G. Langdon, T. R. McNelley, S. R. Kalidindi, and S. L. Semiatin, “StrainPath Effects on the Evolution of Microstructure and Texture during the Severe-Plastic Deformation of Aluminum”, Metallurgical and Materials Transactions A, 37A, pp. 28792891, 2006. 62) G. Proust and S. R. Kalidindi, “Procedures for construction of anisotropic elastic-plastic property closures for face-centered cubic polycrystals using first order bounding relations”, Journal of the Mechanics and Physics of Solids, 54, pp. 1744-1762, 2006. 63) S. R. Kalidindi, M. Binci, D. Fullwood, and B. L. Adams, “Elastic properties closures using second-order homogenization theories: Case studies in composites of two isotropic constituents”, Acta Materialia, 54, pp. 3117–3126, 2006. 64) M. Radovic, M. W. Barsoum, A. Ganguly, T. Zhen, P. Finkel, S. R. Kalidindi, and E. LaraCurzio, “On the elastic properties and mechanical damping of Ti3SiC2, Ti3GeC2, Ti3Si0.5Al0.5C2 and Ti2AlC in the 300–1573 K temperature range”, Acta Materialia, 54, pp. 2757-2767, 2006. 9 65) S. Basu, M. W. Barsoum, and S. R. Kalidindi, “Sapphire: A Kinking Nonlinear Elastic Solid”, Journal of Applied Physics, 99, 063501, 2006. 66) M. Ivosevic, R. Knight, S. R. Kalidindi, G. R. Palmese, and J. K. Sutter, “Solid particle erosion resistance of thermally sprayed functionally graded coatings for polymer matrix composites”, Surface & Coatings Technology, 200, pp. 5145-5151, 2006. 67) S. R. Kalidindi, H. K. Duvvuru, and M. Knezevic, “Spectral Calibration of Crystal Plasticity Models”, Acta Materialia, 54, pp. 1795-1804, 2006. 68) A. G. Zhou, M. W. Barsoum, S. Basu, S. R. Kalidindi, and T. El-Raghy, “Incipient and Regular Kink Bands in Fully Dense and 10 vol.% Porous Ti2AlC”, Acta Materialia, 54, pp. 1631–1639, 2006. 69) A. A. Salem, S. R. Kalidindi, R. D. Doherty, and S. L. Semiatin, “Strain Hardening Due to Deformation Twinning in -Titanium: Mechanisms”, Metallurgical and Materials Transactions, 37A, pp. 259-268, 2006. 70) S. R. Kalidindi, T. Zhen, and M. W. Barsoum, “Macroscale Constitutive Modeling of Kinking Nonlinear Elastic Solids”, Materials Science and Engineering A, 418, pp. 95-98, 2006. 71) S. Li, S. R. Kalidindi, and I. J. Beyerlein, “A crystal plasticity finite element analysis of texture evolution in equal channel angular extrusion”, Materials Science and Engineering A, 410, pp. 207–212, 2005. 72) T. Zhen, M. W. Barsoum, S. R. Kalidindi, M. Radovic, Z. M. Sun, and T. El-Raghy, “Compressive Creep of Fine and Coarse-Grained T3SiC2 in Air in the 1100 to 1300°C Temperature Range”, Acta Materialia, 53, pp. 4963-4973, 2005. 73) T. Zhen, M. W. Barsoum, and S. R. Kalidindi, “Effects of Temperature, Strain Rate and Grain Size on the Mechanical Compressive Response of Ti3SiC2”, Acta Materialia, 53, pp. 4163-4171, 2005. 74) B. L. Adams , X. Gao, and S. R. Kalidindi, “Finite Approximations to the Second-Order Properties Closure in Single Phase Polycrystals”, Acta Materialia, 53, pp. 3563-3577, 2005. 75) S. R. Kalidindi and H. Duvvuru, “Spectral Methods for Capturing Crystallographic Texture Evolution During Large Plastic Strains in Metals”, Acta Materialia, 53, pp. 3613-3623, 2005. 76) A. Salem, S. R. Kalidindi, and S. L. Semiatin, “Strain hardening due to deformation twinning in -titanium: Constitutive relations and crystal-plasticity modeling”, Acta Materialia, 53, pp. 3495-3502, 2005. 77) M. W. Barsoum, T. Zhen, A. Zhou, S. Basu, and S.R. Kalidindi, “Microscale modeling of kinking nonlinear elastic solids”, Physical Review B, 71, 134101, 2005. 78) M. W. Barsoum, M. Radovic, T. Zhen, P. Finkel, and S. R. Kalidindi, “Dynamic elastic hysteretic solids and dislocations”, Physical Review Letters, 94, 085501, 2005. 79) S. R. Kalidindi, J. Houskamp, G. Proust, and H. Duvvuru, “Microstructure sensitive design with first order homogenization theories and finite element codes”, Materials Science Forum, 495-497, pp. 23-29, 2005. 10 80) S. Li, P. Van-Houtte and S. R. Kalidindi, “A quantitative evaluation of the deformation texture predictions for aluminum alloys from crystal plasticity finite element method”, Modeling and Simulations in Materials Science and Engineering, 12, pp. 845–870, 2004. 81) M. W. Barsoum, A. Murugaiah, S. R. Kalidindi, and T. Zhen, “Kinking Nonlinear Elastic Solids, Nanoindentations, and Geology”, Physical Review Letters, 92, 255508, 2004; also published in July 14, 2004 issue of Virtual Journal of Nanoscale Science & Technology. 82) A. Murugaiah, M. W. Barsoum, S. R. Kalidindi, and T. Zhen, “Spherical Nanoindentations in Ti3SiC2”, Journal of Materials Research, 19, pp. 1139-1148, 2004. 83) M. W. Barsoum, A. Murugaiah, S. R. Kalidindi, and Y. Gogotsi, “Nanoindentation and kink bands in single crystal graphite”, Carbon, 42, pp. 1435-1445, 2004. 84) S. R. Kalidindi, A. Bhattacharya, and R.D. Doherty, “Detailed Analyses of Grain-Scale Plastic Deformation in Columnar Polycrystalline Aluminum Using Orientation Image Mapping and Crystal Plasticity Models”, Proceedings of Royal Society of London A, 460, pp. 1935-1956, 2004. 85) S. R. Kalidindi, J. Houskamp, M. Lyons, and B. L. Adams, “Microstructure Sensitive Design of an Orthotropic Plate Subjected to Tensile Load”, International Journal of Plasticity, 20, pp. 1561-1575, 2004. 86) S. Ferrasse, V.M. Segal, S.R. Kalidindi, and F. Alford, “Texture evolution during equal channel angular extrusion. Part I. Effect of route, number of passes and initial texture”, Materials Science and Engineering, A368, pp. 28–40, 2004. 87) M. Ivosevic, R. Knight, S. R. Kalidindi, G. R. Palmese, and J. K. Sutter, “Erosion/Oxidation Resistant Coatings For High Temperature Polymer Composites”, High Performance Polymers, 15, 503-518, 2003. 88) S. R. Kalidindi, A. Bhattacharyya, and R. D. Doherty, “How do polycrystalline materials deform plastically?”, Advanced Materials, 15, pp.1345-1348, 2003. 89) A. A. Salem, S. R. Kalidindi, and R. D. Doherty, “Strain Hardening of Titanium: Role of Deformation Twinning”, Acta Materilia, 51, pp. 4225-4237, 2003. 90) D. S. Li, H. Garmestani, R. G. Alamo, and S. R. Kalidindi, “The Role of Crystallinity in the Crystallographic Texture Evolution of Polyethylenes During Tensile Deformation”, Polymer, 44, pp. 5355-5367, 2003. 91) S. R. Kalidindi, A. A. Salem, and R. D. Doherty, “Role of Deformation Twinning on Strain Hardening in Cubic and Hexagonal Polycrystalline Metals”, Advanced Engineering Materials, 5, pp. 229-232, 2003. 92) M. W. Barsoum, T. Zhen, S. R. Kalidindi, M. Radovic, and A. Murugaiah, “DislocationBased Fully Reversible Compression of Ti3SiC2 to 1 GPa”, Nature Materials, 2, pp. 107111, 2003. 93) E. M. Shaji, S. R. Kalidindi, R. D. Doherty, and A. S. Sedmak, “Fracture Properties of Multiphase Alloy MP35N”, Materials Science and Engineering A, 349, pp. 313-317, 2003. 94) E. M. Shaji, S. R. Kalidindi, R. D. Doherty, and A. S. Sedmak, “Plane Strain Fracture Toughness of MP35N in Aged and Unaged Conditions Measured using Modified CT Specimens”, Materials Science and Engineering, 340, pp. 163-169, 2003. 11 95) B. L. Adams, M. Lyon, B. Henrie, S. R. Kalidindi, and H. Garmestani, “Spectral integration of microstructure and design”, Materials Science Forum, 408-4, pp. 487-492, 2002. 96) H. Garmestani, S. R. Kalidindi, L. Williams, C.M. Bacaltchuk, C. Fountain, E.W. Lee, and O.S. Es-Said, “Modeling the evolution of anisotropy in Al-Li alloys: application to Al-Li 2090-T8E41”, International Journal of Plasticity, 18, pp. 1373-1393, 2002. 97) A. A. Salem, S. R. Kalidindi, and R. D. Doherty, “Strain hardening regimes and Microstructure Evolution during large strain compression of high purity titanium”, Scripta Materialia, 46, pp. 419-423, 2002. 98) L. Delannay, S. R. Kalidindi, and P. Van Houtte, “Quantitative Prediction of Texture in Aluminium Cold Rolled to Moderate Strains”, Materials Science and Engineering, 336, pp. 233-244, 2002. 99) B. Peeters, S. R. Kalidindi, C. Teodosiu, P. Van Houtte, and E. Aernoudt, “Modelling microstructure-based anisotropy in b.c.c. polycrystals during changing strain paths”, Solid State Phenomena, 87, pp. 163-168, 2002. 100) B. Peeters, S. R. Kalidindi, C. Teodosiu, P. Van Houtte, and E. Aernoudt, “A Theoretical Investigation of the Influence of Dislocation Sheets on Evolution of Yield Surfaces in BCC Polycrystals”, Journal of the Mechanics and Physics of Solids, 50, pp. 783-807, 2002. 101) P. Van Houtte, L. Delannay, and S. R. Kalidindi, “Comparison of two grain interaction models for polycrystal plasticity and deformation texture”, International Journal of Plasticity, 18, pp. 359-377, 2002. 102) B. Peeters, S. R. Kalidindi, M. Seefeldt, P. Van Houtte, and E. Aernoudt, “The Incorporation of Dislocation Sheets into a Model for Plastic Deformation of BCC polycrystals and its Influence on R-values”, Materials Science and Engineering A, 319321, pp. 188-191, 2001. 103) M. Seefeldt, L. Delannay, B. Peeters, S. R. Kalidindi, and P. Van Houtte, “A DisclinationBased Model For Grain Subdivision”, Materials Science and Engineering A, 319-321, pp. 192-196, 2001. 104) B. Peeters, P. Van Houtte, S. R. Kalidindi, and E. Aernoudt, “A theoretical investigation of the contribution of texture and dislocation sheets on cross effect and Bauschinger effect in b.c.c. metals”, Journal de Physique IV, 11, pp. 365-372, 2001. 105) B. Peeters, C. Teodosiu, S. R. Kalidindi, P. Van Houtte, and E. Aernoudt, “Modelling of the evolution of dislocation sheets during strain-path-changes and their influence on the Bauschinger effect of b.c.c. polycrystals”, Journal de Physique IV, 11, pp. 119-126, 2001. 106) E. El-Danaf, S. R. Kalidindi, and R. D. Doherty, “Influence of Deformation Path on the Strain Hardening Behavior and Microstructure Evolution in Low SFE FCC Metals”, International Journal of Plasticity, 17, pp. 1245-1265, 2001. 107) A. Saerens, S. R. Kalidindi, and P. Van Houtte, “Finite Element Modelling of Microscale Thermal Residual Stresses in Al Interconnects”, Journal of Materials Research, 16, pp. 1112-1122, 2001. 108) D. Li, H. Garmestani, S. R. Kalidindi, and R. Alamo, “Crystallographic texture evolution in high density polyethylene during uniaxial tension”, Polymer, 42, pp.4903-4913, 2001. 12 109) B. L. Adams, A. Henrie, B. Henrie, M. Lyon, S. R. Kalidindi, and H. Garmestani, “Microstructure-Sensitive Design of a Compliant Beam”, Journal of the Mechanics and Physics of Solids, 49, pp. 1639-1663, 2001. 110) S. R. Kalidindi, “Modeling Anisotropic Strain Hardening and Deformation Textures in Low Stacking Fault Energy FCC Metals”, International Journal of Plasticity, 17, pp. 837860, 2001. 111) B. Peeters, M. Seefeldt, C. Teodosiu, S. R. Kalidindi, P. Van Houtte, and E. Aernoudt “Work-Hardening/Softening Behaviour Of B.C.C. Polycrystals During Changing Strain Paths: I. An Integrated Model Based on Substructure and Texture Evolution”, Acta Materialia, 49, pp. 1607-1619, 2001. 112) G. M. Gualtieri, R. Gobran, Y. Nien, and S. R. Kalidindi, “Swelling of Cross Linked Poly(Methylmethacrylate-Acrylic Acid) Copolymers in Serum and Saline Solutions”, Journal of Applied Polymer Science, 79, pp. 1653-1664, 2001. 113) A. Bhattacharyya, E. El-Danaf, S. R. Kalidindi, and R. D. Doherty “Evolution Of GrainScale Microstructure During Large Strain Simple Compression Of Polycrystalline Aluminum With Quasi-Columnar Grains: OIM Measurements And Numerical Simulations”, International Journal of Plasticity, 17, pp. 861-883, 2001. 114) Y. Nien, S. R. Kalidindi, and S. Siegler, “Fixation strength of swellable bone anchors in low density polyurethane foam”, The Journal of Biomedical Materials Research - Applied Biomaterials, 58, pp. 137-146, 2000. 115) S. R. Kalidindi and S. E. Schoenfeld, “On the prediction of yield surfaces by the crystal plasticity models for fcc polycrystals”, Materials Science and Engineering A, 293, pp. 120129, 2000. 116) G. M. Gualtieri, S. Siegler, E. L. Hume, and S. R. Kalidindi, “Biological and Mechanical Characteristics of the Interface Between a New Swelling Anchor and Bone”, Journal of Orthopeadic Research, 18, pp. 494-499, 2000. 117) B. Peeters, S. R. Kalidindi, P. Van Houtte, and E. Aernoudt, “A Crystal Plasticity based Work-Hardening/Softening Model for BCC Metals under changing Strain Paths”, Acta Materialia, 48, pp. 2123-2133, 2000. 118) E. El-Danaf, S. R. Kalidindi, R. D. Doherty, and C. Necker, “Deformation Texture Transition in Brass: Critical Role of Micro-scale Shear Bands”, Acta Materialia, 48, pp. 2665-2673, 2000. 119) T. El-Raghy, M. W. Barsoum, A. Zavaliangos, and S. R. Kalidindi, “Processing and Mechanical Properties of Ti3SiC2. II – Effect of Grain Size and Deformation Temperature”, Journal of the American Ceramic Society, 82, pp. 2855-2860, 1999. 120) E. Shaji, S. R. Kalidindi, and R. D. Doherty, “Influence of Cold-Work and Aging Heat Treatment on Strength and Ductility of MP35N”, Materials Science and Engineering, A272, pp. 371-379, 1999. 121) D. Brodkin, A. Zavaliangos, S. R. Kalidindi and M. W. Barsoum, “Ambient and High Temperature Properties of Titanium Carbide-Titanium Boride Composites Fabricated by Transient Plastic Phase Processing", Journal of the American Ceramic Society, 82, pp. 665672, 1999. 13 122) E. El-Danaf, S. R. Kalidindi, and R. D. Doherty, “Influence of Grain Size and Stacking Fault Energy and on Deformation Twinning in FCC Metals”, Metallurgical and Materials Transactions, 30A, pp. 1223-1233, 1999. 123) S. R. Kalidindi, “Modeling the Strain Hardening Response of Low SFE FCC Alloys”, International Journal of Plasticity, 14, pp. 1265-1277, 1998. 124) V. Bachu and S. R. Kalidindi, “On the Accuracy of the Predictions of Texture Evolution by the Finite Element Technique for FCC Polycrystals”, Materials Science and Engineering, A257, pp. 108-117, 1998. 125) S. Asgari, E. El-Danaf, E. Shaji, S. R. Kalidindi, and R. D. Doherty, “The Secondary Hardening Phenomenon in Strain Hardened MP35N Alloy”, Acta Materialia, 46, pp. 57955806, 1998. 126) S. R. Kalidindi, "Incorporation of Deformation Twinning in Crystal Plasticity Models", Journal of the Mechanics and Physics of Solids, 46, pp. 267-290, 1998. 127) A. Abusafieh and S. R. Kalidindi, "Effect of Water Absorption on the Izod Impact Energy of Cross-linked Poly(Methyl Methacrylate-Acrylic Acid) and Composites Based on this Copolymer", Polymer Composites, 19, pp. 23-30, 1998. 128) A. Abusafieh, S. Siegler, and S. R. Kalidindi, "Development of Self-Anchoring Bone Implants: I. Processing and Material Characterization", The Journal of Biomedical Materials Research - Applied Biomaterials, 38, pp. 314-327, 1997. 129) A. Vemuganti, S. Siegler, A. Abusafieh, and S. R. Kalidindi, "Development of SelfAnchoring Bone Implants: II. Bone/Implant Interface Characteristics In-Vitro", The Journal of Biomedical Materials Research - Applied Biomaterials, 38, pp. 328-336, 1997. 130) S. Narayanan, S. R. Kalidindi, and L. S. Schadler, "Determination of Unknown Stress States in Silicon Wafers Using Micro-Laser Raman Spectroscopy", Journal of Applied Physics, 82, pp. 2595-2602, 1997. 131) T. S. Hussey, M. J. Koczak, R. W. Smith, and S. R. Kalidindi, "Synthesis of Nickel Aluminides via Vacuum Plasma Spraying with Self-Propagating High-Temperature Synthesis", Materials Science and Engineering, A229, pp. 137-146, 1997. 132) S. R. Kalidindi and P. Ahmad, "A Numerical Investigation of the Mechanics of SwellingType Intramedullary Hip Implants", ASME Journal of Biomechanical Engineering, 119, pp. 241-247, 1997. 133) S. Asgari, E. El-Danaf, S. R. Kalidindi, and R. D. Doherty, "Strain Hardening Regimes and Microstructural Evolution During Large Strain Compression of Low Stacking Fault Energy FCC Alloys that Form Deformation Twins", Metallurgical and Materials Transactions, 28A, pp. 1781-1795, 1997. 134) S. R. Kalidindi, A. Abusafieh, and E. El-Danaf, "Accurate Characterization of Machine Compliance for Simple Compression Testing", Experimental Mechanics, 37, pp. 210-215, 1997. 135) S. R. Kalidindi and E. Franco, "Numerical Evaluation of Isostrain and Weighted-Average Models for Elastic Moduli of Three-Dimensional Composites", Composite Science and Technology, 57, pp. 293-305, 1997. 14 136) A. Abusafieh, R. Gobran, and S. R. Kalidindi, "Synthesis and Characterization of a Poly(Methylmethacrylate-Acrylic Acid) copolymer for Bioimplant Applications", Journal of Applied Polymer Science, 63, pp. 75-87, 1997. 137) T. El-Raghy, A. Zavaliangos, M. W. Barsoum, and S. R. Kalidindi, "Damage Mechanisms Around Hardness Indentation in Ti3SiC2", Journal of the American Ceramic Society, 80, pp. 513-516, 1997. 138) S. R. Kalidindi and A. Abusafieh, "Longitudinal and Transverse Moduli and Strengths of Low Angle 3-D Braided Composites", Journal of Composite Materials, 30, pp. 885-905, 1996. 139) D. Brodkin, S. Kalidindi, M. Barsoum, and A. Zavaliangos, "Microstructure Evolution During Transient Plastic Phase Processing of Titanium Carbide-Titanium Boride Composites", Journal of the American Ceramic Society, 79, pp. 1945-1952, 1996. 140) M. W. Barsoum, A. Zavaliangos, S. R. Kalidindi, T. El-Raghy, D. Brodkin, “The transient plastic phase processing of ceramic-ceramic composites”, Journal of the Minerals Metals & Materials Society 47, pp. 52-55, 1995. 141) S. R. Kalidindi and L. Anand, "Macroscopic Shape Change and Evolution of Crystallographic Texture in Pre-textured FCC Metals", Journal of the Mechanics and Physics of Solids , 42, pp. 459-490, 1994. 142) L. Anand and S. R. Kalidindi, "The Process of Shear Band Formation in Plane Strain Compression of FCC Metals: Effects of Crystallographic Texture", Mechanics of Materials, 17, pp. 223-243, 1994. 143) S. R. Kalidindi and L. Anand, "Large Deformation Simple Compression of a Copper Single Crystal", Metallurgical Transactions , 24A, pp. 989-992, 1993. 144) S. R. Kalidindi, C. A. Bronkhorst and L. Anand, "Crystallographic Texture Evolution During Bulk Deformation Processing of FCC Metals", Journal of the Mechanics and Physics of Solids, 40, pp. 537-569, 1992. 145) S. R. Kalidindi and L. Anand, "An Approximate Procedure for Predicting the Evolution of Crystallographic Texture in Bulk Deformation Processing of FCC Metals", International Journal of Mechanical Sciences, 34, pp. 309-329, 1992. 146) C. A. Bronkhorst, S. R. Kalidindi and L. Anand, "Polycrystalline Plasticity and the Evolution of Crystallographic Texture in Face-Centered Cubic Metals", Philosophical Transactions of the Royal Society of London, A 341, pp. 443-477, 1992. 147) C. A. Bronkhorst, S. R. Kalidindi and L. Anand, "An Experimental and Analytical Study of the Evolution of Crystallographic Texturing in FCC Materials", Textures and Microstructures, 14-18, pp. 1031-1036, 1991. 148) S. R. Kalidindi and S. B. Desu, "A Unified Approach for Modeling CVD Processes", Journal of the Electrochemical Society, 138, pp. 962-969, 1991. 149) S. R. Kalidindi and S. B. Desu, "Analytical Model for the Low Pressure Chemical Vapor Deposition of SiO2 from Tetraethoxysilane", Journal of the Electrochemical Society, 137, pp. 624-628, 1990. 15 150) S. B. Desu and S. R. Kalidindi, "Determination of Rate Controlling Step in CVD Processes with Gas Phase and Surface Reactions", Japanese Journal of Applied Physics, 29, pp. 1310-1315, 1990. 151) S. R. Kalidindi and W. G. Perera, "MSR Acoustic Vibrations due to the HP and LP Tube Bundle and Cavity Interactions Using Bond Graph Model", Journal of Applied Acoustics, 30, pp. 303-320, 1990. 152) S. K. Raju, F. Moses and C. Schilling, "Reliability Calibration of Fatigue Evaluation and Design Procedures", ASCE Journal of Structural Engineering, 116, pp. 1356-1369, 1990. PATENTS 1) S. Siegler, S. R. Kalidindi, and A. Abusafieh, "Swelling-Type Copolymeric Composite Material with Self-Fixation Characteristics", 1998, US Patent 5,824,079. 2) M. Barsoum, T. El-Raghy, D. Brodkin, A. Zavaliangos, and S. R. Kalidindi, "Synthesis of 312 Phases & Composites Thereof", 1999, US Patent 5,942,455. SELECTED CONFERENCE PARTICIPATION (full list contains over 300 presentations) 1. Keynote Lecture at Plasticity13, January, 2013. 2. Keynote Lecture at ECCM2010 (European Conference on Computational Mechanics), Paris, May 2010. 3. Theme Lecture at ICCES10 (International Conference on Computational and Experimental Sciences), Las Vegas, March 2010. 4. Keynote Lecture at IFSTEEL 2010, Jamshedpur, India, February 2010. 5. Keynote Lecture, Plasticity 2008, Hawaii, January 2008. 6. Keynote Lecture, Plasticity 2006, Halifax, Canada, July 2006. 7. Keynote Lecture, International Conference on Advanced Materials Design & Development (ICAMDD - 2005), Goa, India, Dec 2005. 8. Keynote Lecture, ICOTOM 13, Belgium, 2005. GRADUATE STUDENTS ADVISED Ph.D. Thesis Advisor for 1. Mr. David Brough, in progress. 2. Mr. Ahmad Aljazea, in progress. 3. Mr. Ali Khosravani, in progress. 4. Mr. Dipen Patel, in progress. GAANN Fellow, 2012. 5. Mr. Talal Al-Rashidi, in progress. 6. Mr. Mohammed Abba, in progress. 7. Ms. Anne Hanna, in progress. GAANN Fellow, 2010-2012. 8. Mr. Jordan Weaver, in progress. Provost Fellowship, 2010-2012. GAANN Fellow, 2010. IGERT Fellowship 2011. 9. Mr. Yuksel Yabansu, in progress. Turkish Government Fellowship. 16 10. Mr. Daniel Satko, in progress. Provost Fellowship, 2008-2010. GAANN Fellow, 20082010. Harris Foundation Scholarship 2009. 11. Mr. Joshua Shaffer, in progress. Provost Fellowship, 2008-2010. GAANN Fellow, 20082010. 12. Mr. David Turner, in progress. GAANN Fellow, 2008-2010. 13. Ms. Shraddha Vacchani, in progress. Provost Fellowship, 2007-2009. 14. Mr. Hamad Al-Harbi, in progress. 15. Ms. Naomi Barth, in progress. GAANN Fellow, 2006. Koerner Fellowship, 2007. 16. Ms. Amanda Levinson, “The Role of Deformation Twinning on Strain Hardening and Recrystallization in Magnesium Alloy AZ31”, 2012. Provost Fellowship, 2007-2009. GAANN Fellow, 2008-2011. 17. Dr. Giacomo Landi, “A Novel Spectral Approach to Multi-Scale Modeling”, 2011. Mozino Scholarship 2009-2010. 18. Dr. Anthony Fast, “Developing Advanced Microstructure Informatics for Diverse Materials Knowledge Systems”, 2011. GAANN Fellow, 2005, 2006, 2007. 19. Dr. Stephen Niezgoda, “Stochastic Representation of Microstructure via Higher-Order Statistics: Theory and Application”, 2010. IGERT Fellow, 2006, 2007. NSF Graduate Research Fellowship, 2008-2011. Drexel Research Award 2010. Most Promise to Enhance Drexel's Reputation, Mathematical Sciences and Engineering, 2010. 20. Dr. Siddhartha Pathak, “Development and Validation of a Novel Data Analysis Procedure for Spherical Nanoindentation”, Ph.D., Materials Engineering, 2009. Grand Prize winner in the Micrograph Contest of the 50th International Conference on Electron, Ion, and Photon Beam Technology 2006. Southeastern Universities Research Association (SURA) Oak Ridge National Laboratory (ORNL) grant, 2005; ASM International Arthur E. Focke LeaderShape Award, 2006. Center for Integrated Nanotechnologies (CINT) User Program Award, 2007. Keck Post-Doctoral Fellow, 2010-2012; LANL Director’s Post-Doctoral Fellowship, 2012. 21. Dr. Marko Knezevic, “A New Spectral Framework for Crystal Plasticity Modeling of Cubic and Hexagonal Polycrystalline Metals”, Ph.D., Materials Engineering, 2008. SES Travel Award, 2006, Hill Fellowship, 2007, LANL Seaborg Institute Post-Doctoral Fellowship, 2012. 22. Dr. Massimiliano Binci, “A Novel Spectral Framework for Second-Order Homogenization Theories”, Ph.D., Materials Engineering, 2008. SES Travel Award, 2006. 23. Dr. Hari Duvvuru, “Spectral Methods for Microstructure Modeling in Cubic Polycrystalline Metals”, Ph.D., Materials Engineering, 2007. Travel Scholarship from TMS for the 2004 TMS Annual Meeting; ASM International Arthur E. Focke LeaderShape Award, 2005. 24. Dr. Xianping Wu, “Prediction of Crystallographic Texture Evolution and Anisotropic Stress-strain Response during Large Plastic Deformation in -Titanium Alloys using a Taylor-type Crystal Plasticity Model”, Ph.D., Materials Engineering, 2006. 17 25. Dr. Joshua Houskamp, “Microstructure Sensitive Design: Exploiting Material Anisotropy in Mechanical Design”, Ph.D., Materials Engineering, 2005. Koerner Fellow. Dean’s Fellow. 26. Dr. Gwenaelle Proust, “Identifying the Complete Space of Feasible Anisotropic Properties in Polycrystalline Microstructures”, Ph.D., Materials Engineering, 2005. Third place for best student paper in the 2003 SES Annual Meeting, Ann Arbor, Michigan; Zonta International Amelia Earhart Fellowship 2004-2005. 27. Dr. Abhishek Bhattacharya, “Investigating the Evolution of Grain Scale Microstructure during Large Plastic Deformation of Polycrystalline Aluminum”, Ph.D., Materials Engineering, 2003. 28. Dr. Ayman Salem, “Strain Hardening of Titanium: Role of Deformation Twinning”, Ph.D., Materials Engineering, 2002. Secured first place in the 2001 TMS Outstanding Student Paper Contest, Graduate Division; also been awarded the George Hill, Jr. Endowed Fellowship at Drexel University and a Graduate Student Research Award by the College of Engineering at Drexel University, United States Air Force Association Brent Scowcroft Award, 2007. 29. Dr. Yu-Hsuen Nien, “Design, Optimization, and Evaluation of Swellable Bone Anchors in Low Density Applications”, Ph.D., Materials Engineering, 2000. 30. Dr. Ebrahim Shaji, “Influence of Cold Work and Aging on Fracture Toughness and Ductility of MP35N”, Ph.D., Materials Engineering, 1998. 31. Dr. Ehab El-Danaf, “Large Deformation Stress-Strain Response in Low Stacking Fault Energy FCC Metals”, Ph.D., Materials Engineering, 1998. 32. Dr. Abdel Abusafieh, “Development of a New Class of Self-Anchoring Swelling-Type Implants”, Ph.D., Materials Engineering, 1996. Secured the first prize in the international SAMPE student paper competition, 1997, and the second prize in the TMS International Student Paper competition, 1997. Ph.D. Thesis Co-Advisor for 33. Dr. Christopher Hovanec, “Solute Enhanced Strain Hardening of Aluminum Alloys to Achieve Improved Combinations of Strength and Toughness”, Ph.D. Materials Engineering, 2011. Harris Foundation Scholarship, 2003-2005; GAANN Fellow, 2005, 2007; Koerner Fellowship, 2006. 34. Dr. Sandip Basu, “Kinking deformation and its effects on the nano-mechanical behavior of hexagonal crystals”. Ph.D. Materials Engineering, 2008. Second Place in Best Poster Competition, Engineering Ceramics Division, The American Ceramic Society, 2006. 35. Dr. Aiguo Zhou, “Kinking nonlinear elastic solids: theory and experiments”, Ph.D. Materials Engineering, 2008. 36. Dr. Dejan Stojakovich, “Microstructure Evolution in Deformed and Recrystallized Electrical Steel”, Ph.D. Materials Engineering, 2008. Dragomir Nicolitch Charitable Trust Scholarship, 2005 37. Dr. Tiejun Zhen, “Compressive behavior of kinking nonlinear elastic solids - Ti3SiC2, graphite, mica and BN”, Ph.D., Materials Engineering, 2004. 18 38. Dr. Anand Murugaiah, “Nanoindentations in Kinking Nonlinear Elastic Solids”, Ph.D., Materials Engineering, 2004. 39. Dr. Gina Gualtieri, “Biological and Mechanical Interface Characteristics Between a New Swelling Copolymeric Material and Bone”, Ph.D., Biomedical Engineering, 1998. 40. Dr. Sundararaman Narayanan, “Stress Determination in Silicon Wafers and a Micromechanical Study of Compression Failure in Graphite Reinforced Epoxy Using Micro-Raman Spectroscopy”, Ph.D., Materials Engineering, 1998. 41. Dr. Sirous Asgari, “Structure and Strain Hardening of Low Stacking Fault Energy FCC Alloys at Large Strains”, Ph.D., Materials Engineering, 1997. 42. Dr. Tamer El-Raghy, “Synthesis and Characterization of Ti3SiC2”, Ph.D., Materials Engineering, 1997. 43. Dr. Dmitri Brodkin, “Processing-Structure-Properties Relations in Titanium CarbideTitanium Boride Composites Fabricated by Transient Plastic Phase Processing”, Ph.D., Materials Engineering, 1996. M. S. Thesis Advisor for 1. Ms. Alka Basnet, “Classification of Bone Microstructures Using PCA and 2-Point Statistics”, M.S., Mechanical Engineering, 2012. 2. Mr. Dan Illson, “Development of a Processing Network for Process Design Solutions”, M.S., Electrical and Computer Engineering, 2007. 3. Mr. David Steinmetz, “Microstructure-Property Relations Nanocomposites”, M.S., Materials Engineering, 2007. 4. Ms. Melanie Patel, “Investigation of Mouse Femoral Bone Using Raman Spectroscopy and Nanoindentation”, M.S., Materials Engineering, 2006. 5. Mr. Naveen Naidu, “A Hybrid Metal-Polymer Intravascular Stent”, M.S., Materials Engineering, 2000. 6. Mr. Srinivas Balla, “Experimental and Numerical Investigation of Ultra High Molecular Weight Polyethylene(UHMWPE) wear in Total Hip Arthoplasty (THR)”, M.S., Materials Engineering, 1999. 7. Mr. Parvez Ahmad, “A Numerical Investigation of Swelling Type Hip Implants”, M.S., Materials Engineering, 1999. 8. Mr. Yusuf Khan, “A Novel Intravascular Stent”, M.S., Biomedical Engineering, 1999. 9. Mr. Venugopal Bachu, “On the Accuracy of the Crystal Plasticity Model Predictions by the Finite Element Technique for FCC Polycrystals”, M.S., Materials Engineering, 1998. 10. Ms. Binu Jacob, “Evaluation of Self-Anchoring Bone Implants in Dynamic Loading”, M.S., Materials Engineering, 1998. 11. Ms. Anita Vemuganti, “Mechanical Evaluation of Bone-Implant Interface of a New Polyacrylic-Based Composite Material for Orthopedic Applications”, M.S., Biomedical Engineering, 1996. 12. Mr. Ramu Arunachalam, “Macroscopic and Microscopic Aspects of Strain Hardening in -Brass”, M.S., Materials Engineering, 1995. 19 in Polystyrene-Clay 13. Mr. Eric Franco, “Finite Element Simulation of the Micromechanical Behavior of ThreeDimensionally Braided Composite Materials”, M.S., Materials Engineering, 1995. 14. Mr. Vinodh Swaminathan, “Reactive Consolidation of NiAl Using Self-Propagating High Temperature Synthesis”, M.S., Materials Engineering, 1995. M. S. Thesis Co-Advisor for 15. Mr. Ryan Vandermeulen, “The Influence of Deformation History and Texture on the Hall-Petch Relationship”, M.S., Materials Engineering, 2007. 16. Mr. Anthony Coratolo, “Characterization of La-Cr-O Thin Films for Use as Protective Coatings for Cr Containing Alloy Interconnects in Solid Oxide Fuel Cells”, M.S., Materials Engineering, 2006. ASM International Joseph J. Weisser Memorial Scholarship, 2005. 17. Mr. Milan Ivosevic, “Development of Thermally Sprayed Functionally Graded Coatings for Polymer Matrix Composites”, M.S., Materials Engineering, 2003. 18. Mr. Anthony J. Rozanski, “Determination of the Reaction Paths and Liquid Phase Dependence of the Ni-Al SHS Reaction”, M.S., Materials Engineering, 1999. 19. Mr. Jian Guo, “In-Vitro Mechanical Design and Testing of a New Swelling Type Implant for Suture Anchor Application”, M.S., Mechanical Engineering, 1998. 20. Ms. Rakhee Jain, “Effect of Frequency of Loading on Damage in Ultra High Molecular Weight Polyethylene”, M.S., Biomedical Engineering, 1996. 21. Mr. Tim Hussey, “Production of Nickel Aluminides via Vacuum Plasma Spraying with Reactive Synthesis”, M.S., Materials Engineering, 1995. 22. Mr. Ebrahim Shaji, “Mechanical Properties and Recrystallization of MP35N Alloy”, M.S., Materials Engineering, 1995. RESEARCH FUNDING AFOSRMURI ONR DURIP ARO NSF DoEd Subcontract from CMU, Principal Investigator from GT. Managing the Mosaic of Microstructure, $424.3K, 9/12-8/15, option for $282.9K, 9/15-8/17. Principal Investigator. Using Spatial Correlations Measured on a Limited Number of Oblique Sections for Establishing Reliable Structure-PropertyProcessing Linkages, $ 347.9K, 9/11-8/14. Principal Investigator. Co-PIs: Z. Nikolov, M. Kim, J. Spanier. Acquisition of a Fast Raman Imaging System, $116.1K, 8/10-7/12. Principal Investigator. Co-PI: U. Wegst. Use of Spherical Nanoindentation to Characterize the Anisotropic Properties of Microscale Constituents and Interfaces in Hierarchically Structured Composite Materials, $468.6K, 8/107/13. Principal Investigator. Co-PI: R. D. Doherty. Deformation Mechanisms and Microstructure Evolution in Thermo-mechanical Processing of Mg alloys for Structural Automotive Applications, $450K, 8/10-7/13. Principal Investigator. Co-PI: A. Morss Clyne. GAANN in Mechanical Engineering and Sciences, $393.8K, 8/10-7/13. 20 NSF-REU SFTC NSF NSF/DOE DoEd NSF NSF-REU DoEd ONR/OSU DARPA/ BYU DURIP ARO/BYU NSF-REU NSF DURIP AFOSR ARO Principal Investigator. Co-PI: A. Morss Clyne. iREU: Interdisciplinary Research Experience for Undergraduates in Medicine, Energy, and Advanced Manufacturing, $375K, 6/10-5/13. Principal Investigator. Integrated Thermo-Mechanical Processing, Microstructure, and Property Simulation System for Aluminum Alloys - Phase II, $375.5K, 8/09-7/12. Principal Investigator. IREE Supplement to GOALI Award, $26.3K, 8/07-7/08. Principal Investigator. Co-PI: D. Fullwood. AHSS: Development of novel finite element simulation tools that implement crystal plasticity constitutive theories using an efficient spectral framework, $613K, 8/07-7/12. Co-PI. Principal Investigator. A. Zavaliangos. GAANN – Graduate Assistantships in Areas of National Need, $511.5K, 6/07-5/10. Principal Investigator. Co-PIs: D. Fullwood and R. Mishra. GOALI - Process design solutions for textured polycrystalline cubic and hexagonal metals: Inverse solution methodologies and experimental validation, $350K, 7/07-6/10. Principal Investigator. Co-PI: A. Zavaliangos. DREAM: Drexel Research Experience in Advanced Materials, $300K, 6/07-5/10. Principal Investigator. Co-PIs: A. Zavaliangos, J. Spanier, C. Schauer, M. Choi, F. Reisman, W. Lynch, S. Vaidya, S. Cox. GAANN – Graduate Assistantships in Areas of National Need, $633K, 6/06-5/09. Sub-contract from OSU. Principal Investigator for DU. Computational tools for digital representation and prediction of microstructure and its incorporation in designer’s knowledge base, $650K, 06/05-5/10. Sub-contract from BYU, Principal Investigator for DU. Modeling Microstructure Evolution in Friction Stir Welding, $461K, 7/03 – 6/08. Principal Investigator. Co-PIs: M. Barsoum and R. D. Doherty. Acquisition of an Orientation Imaging Microscopy (OIM) System for High Resolution Studies of Kinking Nonlinear Elastic Solids and Heavily Deformed Metals, $126.23K, 5/06-4/07. Sub-contract from BYU. Principal Investigator for DU. Microstructure Sensitive Design, $150K, 7/04-6/07. Principal Investigator. Co-PI: A. Zavaliangos. DREAM: Drexel Research Experience in Advanced Materials, $334.071K, 4/04-3/07. Co-Principal Investigator. PI: A. Zavaliangos. Other co-PIs: H. M. Goldman, J. Wartman, and W. Sun. Major Research Instrumentation grant for the Acquisition of a High Resolution X-ray Tomography Unit, $349.3K, 9/05-8/06. Principal Investigator. Co-PIs: M. Barsoum, Y. Gogotsi, and S. Domnich. Acquisition of a Field Emission Scanning Electron Microscope Equipped with Wavelength Dispersive X-Ray and Raman Spectrometers, $155.23K, 3/04-2/06. Principal Investigator. Co-PI: Doherty. Microstructure Evolution and Mechanical Properties of Severely Plastically Deformed (SPD) Aluminum Alloys, $330K, 1/04-12/06. Co-Principal Investigator. PI: M. Barsoum. Comprehensive Study of Incipient and Regular Kink Band Formation in Natural Nanolaminates, $450K, 7/03-6/06. 21 NSF Co-Principal Investigator. PI: R. Doherty. Inter-American Materials Collaboration: Investigation of Grain Scale Deformation and Recrystallization in Columnar Grained Electrical Steels with a <100> Fiber Texture", $349K, 7/03-6/06. NSF Principal Investigator. Co-PI: R. Doherty. Role of Deformation Twinning in Strain Hardening and Texture Evolution in Titanium: Experiments and Numerical Simulations, $410K, 7/02-6/06. NSF-REU Principal Investigator. Co-PI: R. Doherty. REU Supplement to NSF grant, $10K, 3/03-2/04. AFOSR Principal Investigator. Workshop on Microstructure Sensitive Design, $40K, 7/02-12/02. ARO/ARL Sub-contract from BYU, Principal Investigator for DU. Microstructure Sensitive Design, $180K, 6/01-6/04. NASA Co-Principal Investigator. PI: R. Knight. Other Co-PI: T. Twardowski, Glenn Development of Thermally Sprayed FGM Erosion/Oxidation Resistant Coating for Polymeric Substrates, $211K, 8/00 – 7/03. ARO Co-Principal Investigator. PI: M. Barsoum. Micromechanical Origin and Design Implications of Damage Tolerance in Ti3SiC2, $345K, 6/00-5/03. Drexel/Jeffer Principal Investigator. Co-PIs: R. Gobran. F. Ko, and M. Consigny, son Alliance Development of a Novel Intravascular Stent, $20K, 4/99 – 12/99. NSF Principal Investigator. Extension of Crystal Plasticity Models to Include Deformation Twinning: Application to Non-Homogeneous Deformations in FCC and HCP Metals, $199K, 7/98-6/01. The Principal Investigator. Design and Development of a New Class of Swelling Whitaker Type Composite Materials for Cementless Hip Implants, $70K, 5/98 - 4/99. Foundation AFOSR Co-principal Investigator. PI: M. Barsoum. Microscale Plasticity and Fracture Toughness of Ti3SiC2 at Ambient and High Temperature, $78K, 5/97 – 12/97. NSF Co-principal Investigator. PI: R. D. Doherty. Extension of Crystal Plasticity Models to Grain-scale Evolution of Microstructure: OIM measurements and Numerical Simulations, $305K, 1/97 - 12/99. NSF/SPS Co-principal Investigator. PI: R. D. Doherty. Microstructural Evaluation and Technologie Mechanical Modeling of Strain Hardening Aerospace MP35N and Aerex 350 s, Inc. Alloys, $269K, 7/95 - 6/98. The Principal Investigator. Young Investigator Award. Design and Development of a Whitaker New Class of Swelling Type Composite Materials for Cementless Hip Implants, Foundation $180K, 1/95 - 12/97. NSF Co-principal Investigator. PI: L. Schadler. An Investigation of the Micromechanics of Failure in Unidirectional Epoxy Composites Using Laser Raman Spectroscopy Techniques, $50K, 6/94 - 8/95. ONR Co-principal Investigator. PI: M. Koczak. Synthesis and Modeling of Ceramic and Intermetallic Matrix Composites Processed by Self Propagating Synthesis, $200K, 7/93 - 7/97. 22 NSF Co-principal Investigator. PI: M. Barsoum. Other co-PIs: A. Zavaliangos. Structure-Property Relationships in Composites Manufactured by Transient Plastic Phase Processing, $399K, 7/93-12/96. PROFESSIONAL SERVICE Participated on the TMS Team and contributed to the report, “Integrated Computational Materials Engineering (ICME): A Field Manual for Implementing ICME in the Aerospace, Automotive, and Maritime Industries”, 2013. Participated on the TMS Innovation Impact Team and contributed to the report, “Linking transformational materials and processing for an energy efficient and low-carbon economy”, 2011 Member of ASM/TMS Microstructure and Texture Committee, 2007-present. Co-Editor in Chief for Computers, Materials, Continua (CMC) published by Tech Science Press, 2007-2011. Served as a reviewer on numerous journal submissions for Acta Materialia, Materials Science and Engineering A, Metallurgical and Materials Transactions A, Journal of the Mechanics and Physics of Solids, International Journal of Plasticity, among several others. Served as a reviewer on several occasions for the National Science Foundation, the Army Research Office, the Katholieke Universiteit, Leuven, and the Deutsche Forschungsgemeinschaft (DFG). Member of ASME (since 1992), TMS (since 1993), and ASM (since 2005). Championed strong participation of Drexel MSE students in the Liberty Bell Chapter of ASM through several initiatives. Served as the Director of Department of Education funded GAANN (Graduate Assistantships in Areas of National Need) Site, 2006-present. Served as the Director of DoD/NSF funded Research Experience for Undergraduates Site, DREAM – Drexel Research Experience in Advanced Materials, 2004-present. HONORS/AWARDS 1. Finalist for the Journal of Materials Science Robert W. Cahn Best Paper Prize, 2012. 2. Research featured on the cover of Issue 5 of Modelling and Simulation in Materials Science and Engineering, 2012. 3. Elected Fellow of ASM International, 2011. 4. Elected Fellow of American Society of Mechanical Engineers, 2011. 5. Elected Fellow of Alpha Sigma Mu, 2010. 6. Outstanding Leadership Award, College of Engineering, Drexel University, 2009. 7. Outstanding Teaching Award, Department of Materials Science and Engineering, 2009. 8. Highly Commended, Mentor of the Year, Drexel University, 2008. 9. Research recognized as a TMS (The Materials, Metals, and Minerals Society) “spotlight” in the area of computational materials science in November 2007. 10. Inducted into Drexel 10^6 Club in 2004 in recognition of bringing in excess of $1 million in external grants during one year. 11. 2003 Research Achievement Award, Drexel University. 12. Listed in Marquis Who’s Who in Science and Engineering, 2000, 2001, 2002, 2003, 20052006. 13. Listed in Marquis Who’s Who in the World, 20th Edition; 21st Edition. 23 14. Listed in Who’s Who Among America’s Teachers, 7th Edition, 2002; 8th Edition 2003-2004; 9th Edition 2004-2005. 15. Listed in Who’sWho in Engineering Education (WWEE), 2002. 16. Member of the Board of Review, Metallurgical and Materials Transactions A, 2001-present. 17. Listed in 2000 Outstanding Intellectuals of the 21st Century – 1st Edition, International Biographical Center, Cambridge, England. 18. Listed in 2000 Outstanding Scholars of the 21st Century – 1st Edition, International Biographical Center, Cambridge, England. 19. Listed in Marquis Who’s Who in America, 55th Edition, 56th Edition, 59th Edition, 2005 Edition. 20. Listed in 2000 Outstanding Scientists of the 20th Century, 21st Century, International Biographical Center, Cambridge, England. 21. Listed in Who’s Who in Plastics & Polymers, Society of Plastics Engineers, Technomic Publishing Company, 2000. 22. Patent Recognition Award, Drexel University, 1998. 23. First Presidential Award for Graduates, Sigma Xi, Drexel University, 1998. 24. First Presidential Award for Graduates, Sigma Xi, Drexel University, 1997. 25. Whitaker Young Investigator Award, 1995. 26. Drexel University Nominee for NSF Presidential Faculty Fellow Competition, 1995. 24
