Surya R. Kalidindi

Profile

  • Organization
    Georgia Tech

  • Reason
    (not set)

  • Biography
    Surya R. Kalidindi earned a B.Tech. in Civil Engineering from the Indian Institute of Technology, Madras, an M.S. in Civil Engineering from Case Western Reserve University, and a Ph.D. in Mechanical Engineering from the Massachusetts Institute of Technology. After his graduation from MIT in 1992, Surya joined the Department of Materials Science and Engineering at Drexel University as an Assistant Professor, where he served as the Department Head during 2000-2008. In 2013, Surya accepted a new position as a Professor of Mechanical Engineering in the George W. Woodruff School at Georgia Institute of Technology, with joint appointments in the School of Computational Science and Engineering and in the School of Materials Science and Engineering.

    Prof. Kalidindi’s research efforts over the past two decades have made seminal contributions to the fields of crystal plasticity, microstructure design, spherical nanoindentation, and materials informatics. His work has already produced more than 225 journal articles, six book chapters, and two books. His work is well cited by peer researchers as reflected by an h-index of 65 and a current citation rate of more than 1700 citations/year (Google Scholar). He has recently been awarded the Alexander von Humboldt award in recognition of his lifetime achievements in research (2013). Prof. Kalidindi has been elected a Fellow of Alpha Sigma Mu (2010), American Society of Mechanical Engineers (ASME; 2011), ASM International (2011), and The Minerals, Metals, and Materials Society (TMS; 2015). Most recently, he has been selected by the Department of Defense as one of 11 distinguished faculty scientists and engineers to join the 2018 Class of Vannevar Bush Faculty Fellows.

    Dr. Kalidindi's research interests are broadly centered on designing material internal structure (including composition) for optimal performance in any selected application and identifying hybrid processing routes for its manufacture. To this end, he has employed a harmonious blend of experimental, theoretical, and numerical approaches in his research. He is especially interested in the following topics.

    • Physics-Based Multi-scale Models, Crystal Plasticity, Crystallographic Slip, Deformation Twinning, Texture Evolution, Finite Element Models, Computational Mechanics and Materials Science
    • Microstructure Sensitive Design, n-point Statistics, Microstructure Hulls, Property Closures, Process Networks, Spectral Methods for Microstructure-Property-Processing Linkages
    • Microstructure Informatics, Data Analytics, Materials Knowledge Systems, Cyberinfrastructure for Materials Innovation
    • 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

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