[BNC-all] Register today: Free, hands-on Thermo-Calc Educational Workshop on December 15th, 1:00 PM EST

[Black, Nancy Lee]

Join our upcoming hands-on workshop on thermodynamics and kinetic calculations in materials science using Thermo-Calc. Motivated by integrated materials engineering (ICME) and the materials genome (MGI), the hands-on workshop will exemplify the use of Thermo-Calc in the classroom and research. The target audience is instructors, researchers and students. The academic version of Thermo-Calc is now freely available in nanoHUB through a collaboration between Thermo-Calc and nanoHUB. You can access this software by joining the Thermo-Calc group in nanoHUB: https://nanohub.org/groups/tcacademic.

Title: Integrated Computational Materials Engineering in the Classroom: Teaching Fundamental Thermodynamics and Kinetics Through an Industry-Focused Lens using Free Online Simulations.

Presenter: Adam Hope, PhD, Thermo-Calc Software Inc.

Date/Time: Wednesday, December 15, 2021 from 1:00 PM – 2:00 PM EST
Register here: https://purdue.webex.com/purdue/onstage/g.php?MTID=e1f44a88da6016a3b691b73748654dc0d


Abstract: Both the National Academies report on Integrated Computational Materials Engineering and the Materials Genome Initiative have highlighted the importance of linking materials, chemistry, and processing to microstructure in order to predict and engineer material properties and performance. This is especially important in the context of Industry 4.0. However, some of the challenges in implementing such an approach are:

  *   Linking models across length scales
  *   The lack of materials property data as a function of chemical composition and temperature
  *   The lack of familiarity and awareness of engineers on design teams as to the different types of modeling tools which are outside their background, especially those which transcend the more traditional gaps between materials science and mechanical engineering.
Modeling chemistry-process-structure relationships requires a solid foundation of thermodynamics, phase equilibria and kinetics. The CALPHAD (Calculation of Phase Diagrams) method fits this need. CALPHAD is a phenomenological approach for calculating/predicting thermodynamic, kinetic, and other properties of multicomponent materials systems. It is based on describing the properties of the fundamental building blocks of materials, starting from pure elements and binary and ternary systems. With extrapolation from the binary and ternary systems, CALPHAD predicts the properties of higher order alloys. Over the last decades, the CALPHAD method has successfully been used for development of numerous real engineering materials.

CALPHAD tools are not only a critical component of any ICME framework, but they also create an opportunity to assist in teaching thermodynamics - from understanding the influence of chemistry on Gibbs free energy to constructing simple binary phase diagrams. This fundamental approach can then be extended to multicomponent systems to study real engineering materials.

This presentation will demonstrate ways that Thermo-Calc can be used in the classroom, as a teaching tool, and in industry, as a research and problem solving tool for any ICME framework.

Bio: Adam received his PhD in Welding Engineering at The Ohio State University. His work was focused on integrating computational and experimental techniques to predict susceptibility to weld cracking, and to develop new weld metal compositions for nuclear power applications. Adam currently works at Thermo-Calc Software providing training and applications support to users.
I hope that you can join us in this workshop! Please share this invitation with others who may be interested.

Regards,

Alejandro Strachan
Deputy Director, nanoHUB

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Alejandro Strachan
Professor of Materials Engineering, Purdue University
Network for Computational Nanotechnology - nanohub.org<http://nanohub.org>
Center for Predictive Materials and Devices (c-PRIMED)

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