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  1. Week of March 1, 2015

    1. Tuesday, March 3, 2015

      1. 4:00 pm  

         

        Nuclear Engineering and Materials Science and Engineering

        Purdue University

         

        Statistical Dislocation Dynamics Modelling of Metal Deformation at the Mesoscale

         

         

        BIO: Dr. Anter El-Azab is a professor of Nuclear Engineering and Materials Science and Engineering at Purdue University. He obtained his PhD at UCLA in Nuclear Engineering/Materials. He joined Pacific Northwest National Laboratory for six years as a senior research scientist in modeling and simulation in materials and nanoscale systems. He then joined Florida State University as an associate professor and then full professor of Computational Science, Materials Science, and Mechanical Engineering. Dr. El-Azab is known for his research in dislocation dynamics and mesoscale deformation of metals, radiation effects in materials, and in computational methods in materials science.

                   

        ABSTRACT: A wide range of mesoscale dislocation patters have been observed in deformed metals. These patterns are believed to influence the hardening behaviour and the plastic fracture of metals. In this presentation, a brief historical perspective on the dislocation patterns and related early models will be given. The current dislocation dynamics models will also be assessed from the viewpoint of predicting dislocation patterning and strain hardening of crystals. The bulk of this talk will be dedicated to introducing a statistical mechanical approach to dislocation dynamics; this is a transport type approach in which the space-time evolution of the dislocation density is described by a set of kinetic equations, one per slip system, which are solved concurrently with an eigenstrain formulation of the stress boundary value problem. Application of the statistical mechanics concepts to build the dislocation kinetic equations from the bottom up, i.e., by connecting the discrete and continuum representations of dislocations, results in a closure problem requiring to evaluate the spatial and temporal dislocation correlation effects. We demonstrate that this approach is able to predict all experimental observables: the stress-strain behaviour including hardening, dislocation pattern formation and dislocation density evolution, plastic strain/slip distribution and distorted crystal shapes, and the local elastic strain and lattice rotation at the mesoscale. The preliminary results show that cross slip is the most crucial mechanism for triggering cell structure formation in fcc metals from initial random dislocation configurations; that cells are 3D crystal sub-regions surrounded by dislocations walls in all directions; that cells form, disappear, and reappear as a result of the motion of cell walls; and that the average cell size refines according to the similitude principle observed in related experiments. We conclude with an outlook as to how to turn dislocation dynamics into a formal theory of metal deformation and discuss how to enrich this framework to make it work for irradiated metals. This work was supported by the U.S. DOE Office of Basic Energy Sciences, Division of Materials Science & Engineering via contract # DE-FG02-08ER46494 at Florida State University and by funding from the School of Nuclear Engineering at Purdue University.

        Professor Anter El-Azab, School of Nuclear Engineering, Purdue University


        NPRE 596 Graduate Seminar Series - Professor Anter El-Azab

        269 Everitt Laboratory

  2. Week of March 15, 2015

    1. Tuesday, March 17, 2015

      1. 4:00 pm

        Assistant Professor Linda Nie, School of Health Sciences, Purdue University


        NPRE 596 Graduate Seminar Series - Professor Linda Nie

        269 Everitt Lab, 1406 West Green Street

    2. Saturday, March 21, 2015

      1. 1:00 pmSpring Vacation Begins
  3. Week of March 29, 2015

    1. Monday, March 30, 2015

      1.  Instruction resumes
  4. Week of April 12, 2015

    1. Thursday, April 16, 2015

      1. 5:30 pmNPRE / ANS Annual Awards Banquet

        I Hotel and Conference Center, 1900 South First Street, Champaign

  5. Week of May 3, 2015

    1. Wednesday, May 6, 2015

      1.  Instruction Ends
    2. Thursday, May 7, 2015

      1. All DayIT No Change Period in effect
    3. Friday, May 8, 2015

      1. All DayIT No Change Period in effect
      2.  Final Exams Begin
    4. Saturday, May 9, 2015

      1. All DayIT No Change Period in effect
  6. Week of May 10, 2015

    1. Sunday, May 10, 2015

      1. All DayIT No Change Period in effect
    2. Monday, May 11, 2015

      1. All DayIT No Change Period in effect
    3. Tuesday, May 12, 2015

      1. All DayIT No Change Period in effect
    4. Wednesday, May 13, 2015

      1. All DayIT No Change Period in effect
    5. Thursday, May 14, 2015

      1. All DayIT No Change Period in effect
    6. Friday, May 15, 2015

      1. All DayIT No Change Period in effect
    7. Saturday, May 16, 2015

      1. All DayIT No Change Period in effect
      2.  Commencement

        Memorial Stadium

  7. Week of May 17, 2015

    1. Sunday, May 17, 2015

      1. All DayIT No Change Period in effect
    2. Monday, May 18, 2015

      1. All DayIT No Change Period in effect
      2.  First Day of Instruction, Summer Term 1
    3. Tuesday, May 19, 2015

      1. All DayIT No Change Period in effect
  8. Week of June 7, 2015

    1. Saturday, June 13, 2015

      1.  End of Summer Session 1
  9. Week of June 14, 2015

    1. Monday, June 15, 2015

      1.  First Day of Instruction, Summer Term 2
  10. Week of August 2, 2015

    1. Thursday, August 6, 2015

      1.  End of Summer Session 2
    2. Friday, August 7, 2015

      1.  Final Exams Begin

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