Events: Details

Institute for Materials Seminar - Polycrystalline Materials by Design at Army Research Laboratory

Category: Seminar

Polycrystalline Materials by Design at Army Research Laboratory

Dr. Mark A. Tschopp
Army Research Laboratory
Weapons and Materials Research Directorate
Grain boundaries and interfaces play a commanding role in the bulk properties of polycrystalline materials, interacting with dislocations and/or cracks, absorbing defects and solute atoms, and moving with stress and/or temperature.  Suffice it to say that understanding the structure-property relationships of grain boundaries and interfaces in metals and ceramics is critical to designing material systems for improved properties and performance.  This presentation will introduce the different kinds of grain boundaries and interfaces in metals/ceramics and discuss some recent research thrusts to understand grain boundary/interfacial behavior, to model these grain boundaries/interfaces, and to experimentally tailor these grain boundaries/interfaces for real material systems.  The understanding of interfaces, in particular the structure-property relationships, is a key component of the “Materials-By-Design” thrust – a concept related to national initiatives to develop integrated computational material models that aim to link chemistry and processing all the way to performance, with everything in between.  The ability to model these interfaces can provide insight into material behavior at multiple scales.  This talk will focus on the many efforts to understand, model, and engineer grain boundaries in polycrystalline metals and ceramics, to include efforts (1) to sample how properties are influenced by grain boundary character, (2) to develop methods to obtain grain boundaries in simple (cubic) and complex systems, (3) to understand how grain boundary structure interacts with dislocations, point defects, solutes, and impurities, (4) to mathematically describe how shear (twinning dislocations) and shuffles impact twinning in HCP metals, (5) to engineer the thermal stability of nanocrystalline alloys via solute additions, (6) to radically improve the properties of bulk nanocrystalline parts by dispersing nanosized precipitates, and (7) to navigate the complexity in modeling grain boundaries in lightweight armor ceramics such as boron carbide.  
Dr. Mark A. Tschopp is a team leader of the Alloy Development and Design team and a materials engineer at the U.S. Army Research Laboratory (ARL). He obtained his Ph.D. degree in materials science and engineering from the Georgia Institute of Technology and has spent 4+ years at ARL, 4 years in casting R&D at GM Powertrain, 2 years in the Life Prediction and Behavior group (Metals branch) at the Air Force Research Laboratory, and 4+ years at Mississippi State University.  He has published over 100 journal papers, book chapters, conference papers, and technical reports with >2100 citations for the >85 peer reviewed journal papers in materials science, mechanics, and design (Google Scholar).  At present, he has presented over 100 presentations and seminars at national and international conferences, including giving over 70 invited talks/seminars.  ASM International recently selected Dr. Tschopp for the ASM Silver Medal Award, given to 1 recipient each year, presented at MS&T 2016 for “distinguished and sustained contributions in computational materials science, solid mechanics, processing-structure-property relationships, materials design for integrated computational materials engineering, and for service to ASM International.” 

(Google Scholar LinkResearchGate Link)

LOCATION MAP,+Atlanta,+GA+30318/@33.7783182,-84.4025247,18z/data=!3m1!4b1!4m5!3m4!1s0x88f5048b80be796b:0xf12a174546992acc!8m2!3d33.7783182!4d-84.4014304

When: Thursday 23 March, 2017, 3:00 pm - 4:00 pm EDT
Where: The George W. Woodruff School of Mechanical Engineering, MRDC Bldg., Room 4211, 801 Ferst Drive, NW Atlanta, GA 30332
Submitted by: Aleksandr Blekh
  1. ARL
  2. IMAT
  3. multi-scale modeling
  4. polycrystalline
  5. PSP linkages
  6. seminars
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