2019 Physical Metallurgy Gordon Research Conference & Seminar

Abstract

The past few years have witnessed a dramatic increase of the pace of application of advanced data science methods such as machine learning to digital microstructures and related properties. In addition, in situ and in operando experimental techniques to characterize 3D microstructures and measure time-dependent evolution under applied fields are providing completely new research platforms to quantify deformation and damage mechanisms in alloy systems. To this end, the 2019 Gordon Research Conference (GRC) on Physical Metallurgy, Frontiers of Coupling Computation, Data Science and Experiments in Physical Metallurgy, (https://www.grc.org/physical-metallurgy-conference/2019/), will address how the field of Physical Metallurgy is rapidly evolving and in many respects is leading the way at the intersection of these new technologies in emerging paradigms such as Integrated Computational Materials Engineering and the U.S. Materials Genome Initiative. The Gordon Research Conference seeks to encourage communication and discussion of ideas and new unpublished results at the very frontier of a particular field of research, by bringing together outstanding scientists from academia, industry, and government, ranging from leading researchers to Ph.D. students. The GRC on Physical Metallurgy will be held from July 7-12, 2019 at Southern New Hampshire University, Manchester, NH, USA. Co-Chaired by Carol A. Handwerker, Dierk R. Raabe, and David L. McDowell, the program features an international collection of internationally recognized male and female scientists engaged in research on important new research directions in Physical Metallurgy, with the following topics. Session 1: Transcending Historical Models via Data Science Session 2: Grain Boundary Complexity and Materials Design Session 3: Materials Discovery with the Aid of Data Science Session 4: In Situ Experimental Methods Session 5: Grain Boundary Complexity and Data Science Session 6: High Throughput Materials Discovery and Development Session 7: Machine Learning in Alloy Discovery, Design and Development Session 8: Complex Engineering Alloys: Experiment and Simulation Session 9: Thermodynamics and Kinetics: Key to Materials Design A Gordon Research Seminar, co-chaired by Thomas N. Reeve and Aeriel D. Murphy-Leonard, will be held in conjunction with this GRC.

Document Details

Document Type

DoD Grant Award

Publication Date

May 28, 2019

Source ID

W911NF1910341

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