AN INTEGRATED COMPUTATIONAL MATERIALS ENGINEERING APPROACH to OPTIMIZING and DESIGNING ALLOYS TAILORED for ADDITIVE MANUFACTURING

Monday, April 10, 2017: 2:00 PM
Room 10 (Charleston Area Convention Center)
Mr. Jeff Grabowski , QuesTek Innovations, LLC, Evanston, IL
Prof. Gregory Olson , QuesTek Innovations, LLC, Evanston, IL
Dr. Jason Sebastian , QuesTek Innovations, LLC, Evanston, IL
Mr. David Snyder , QuesTek Innovations, LLC, Evanston, IL
Mr. Kerem Taskin , QuesTek Innovations, LLC, Evanston, IL
Integrated Computational Materials Engineering (ICME) methodologies are effective tools to reconfigure the materials development process and accelerate implementation of new higher performance alloys into demanding applications. New alloys, meeting specific desired property goals, can be designed much more quickly and at less cost than empirical trial and error methods.

Current alloys used in AM were originally designed to be processed via traditional metallurgy paths (such as forging) and have quite different microstructures and properties when put through AM processes where the material is melted and quenched very rapidly.

QuesTek Innovations LLC has been using ICME technologies and its Materials by Design® methodology to optimize legacy alloys and design entirely new alloys tailored specifically for Additive Manufacturing across a variety of elemental systems including Al, Ti, Ni, Fe and stainless steel.

This talk will cover the technical approach and successes of QuesTek’s materials design and modeling projects in AM, additional opportunities for application of ICME to AM materials development and component production, and offer a view of commercial implications.