Center for Excellence on Integrated Materials Modeling

Faculty

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  • Somnath Ghosh PhD

    callas-professorship-Ghosh

    Michael G. Callas Chair Professor
    Director, Computational Mechanics Research Laboratory (CMRL)
    Department of Civil Engineering
    Department of Mechanical Engineering
    Johns Hopkins University
    203 Latrobe | 3400 N. Charles Street
    Baltimore, MD 21218
    e-mail: [email protected]
    website: http://cmrl.jhu.edu

     

    AREAS OF SPECIALIZATION AND INTEREST

    Computational Mechanics with focus on materials analysis, characterization and processing, including simulation and design. Specific areas of interest include:

    • Coupled Mechanical-Electro-Magnetic Phenomena with Load Bearing Antenna Applications
    • Multi Spatial and Temporal Scale Modeling of Composite and Polycrystalline Materials and Structures
    • Multi-scale Material Characterization, Image Simulation and Image based Analysis
    • Failure, Fatigue and Life Prediction of Metals and Composites with Experimental Verification
    • Instabilities in Thermal Barrier Coatings
    • Computational Nanotechnology: Molecular Dynamics Simulations of Polymeric and Metallic Materials, Thin Films and Nano-composites
    • Probabilistic Methods in Multi-scale Modeling
    • Large Deformation Analysis with Contact
    • Metal Forming and Materials Processing Simulation and Design
    • Finite Element Analysis with Adaptive Enrichment
    • Biomaterials and Design of Bio-Implant and Prosthetics

  • Kevin Hemker

    hemker

    The Alonzo G. Decker Professor, Mechanical Engineering
    Professor, Materials Science and Engineering /Earth and Planetary Sciences
    Johns Hopkins University
    223 Latrobe | 3400 N. Charles Street
    Baltimore, MD 21218
    e-mail: [email protected]

     

     

     

    AREAS OF SPECIALIZATION AND INTEREST

    • Traditional interests include: high temperature mechanical behavior, transmission electron microscopy, deformation behavior of intermetallic alloys, experimental characterization of dislocation core structure, and microsample testing.
    • Research aimed at identifying the microstructural details that govern the macroscopic mechanical response of metals, alloys and advanced structural materials.
    • Relatively new research topics include the characterization and modeling of bond coat layers for thermal barrier coatings, deformation behavior of nanocrystalline materials, and characterization of materials for MEMS applications.

  • Lori Graham-Brady

    lorybrady

    Professor
    Department of Civil Engineering
    Department of Mechanical Engineering
    Director, Modeling Complex Systems IGERT Program (MCS IGERT)
    Associate Director, Hopkins Extreme Materials Institute (HEMI)

    Johns Hopkins University
    206 Latrobe | 3400 N. Charles Street
    Baltimore, MD 21218
    e-mail:  [email protected]
    website: http://www.ce.jhu.edu/lori/
     

    AREAS OF SPECIALIZATION AND INTEREST

    Computational Mechanics with focus on materials analysis, characterization and processing, including simulation and design. Specific areas of interest include:

    • Coupled Mechanical-Electro-Magnetic Phenomena with Load Bearing Antenna Applications
    • Multi Spatial and Temporal Scale Modeling of Composite and Polycrystalline Materials and Structures
    • Multi-scale Material Characterization, Image Simulation and Image based Analysis
    • Failure, Fatigue and Life Prediction of Metals and Composites with Experimental Verification
    • Instabilities in Thermal Barrier Coatings
    • Computational Nanotechnology: Molecular Dynamics Simulations of Polymeric and Metallic Materials, Thin Films and Nano-composites
    • Probabilistic Methods in Multi-scale Modeling
    • Large Deformation Analysis with Contact
    • Metal Forming and Materials Processing Simulation and Design
    • Finite Element Analysis with Adaptive Enrichment
    • Biomaterials and Design of Bio-Implant and Prosthetics

  • Jaafar El-Awady

    El-Awady

    Assistant Professor
    Director, Computational and Experimenta Materials Engineering Laboratory (CEMEL)
    Department of Mechanical Engineering
    Johns Hopkins University
    124 Latrobe | 3400 N. Charles Street
    Baltimore, MD 21218
    e-mail: [email protected]
    website: CEMEL

     

     

    AREAS OF SPECIALIZATION AND INTEREST

    The primarily focused is to develop a fundamental understanding of the underlying deformation mechanism in materials. Goal is to enhance the field of Materials-by-Design, by moving from empirical, trial-and-error development techniques of materials, to a combination of state of the art multiscale computational methods and experimental techniques that can result in expediting the process of developing reliable materials with superior performance.

    • Atomistic and Discrete Dislocation Dynamics Modeling of Mechanical Twinning and Plasticity in Magnesium
    • Micro-Mechanics Modeling of Surface Roughness Evolution and Subsequent Crack-Initiation under Thermo-Mechanical Fatigue
    • Multiscale Modeling and Experiments of Size Effects in Single Crystals Metals
    • Micromechanical Testing of Ultra High Strength Materials
    • Multi-scale Modeling of Hydrogen Embrittlement

 

 

 

 

 

 

 

 

 

 

 

Center for Excellence on Integrated Materials Modeling