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Meeting 2020 TMS Annual Meeting & Exhibition
Symposium Hume-Rothery Symposium: Thermodynamics, Phase Equilibria and Kinetics for Materials Design and Engineering
Presentation Title Industrial Applications of Thermodynamic and Kinetics Modeling
Author(s) David U. Furrer, Dmitri Novikov, Xuan Liu, Sergei Burlatsky
On-Site Speaker (Planned) David U. Furrer
Abstract Scope Thermodynamic modeling tools and methods have evolved extensively. The ability to predict the equilibrium and non-equilibrium constitution of materials has enabled the capability to design and develop materials for next generation applications. These capabilities have allowed virtual experiments to guide focused, rapid physical investigations to achieve new combinations of properties in industrial relevant materials. The use of thermodynamic and kinetics modeling are helping to answer many questions and devise solutions to many challenging industrial issues. While there was a period of time when consolidation of material types was desired due to the cost of material design, development and validation, modeling tool are now breaking down this barrier and enabling implementation of unique material solutions for unique challenges. Examples of how thermodynamic and kinetics modeling tools are being applied to industrial applications will be discussed.
Proceedings Inclusion? Undecided

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Hexagonal Close Packed Multi-principal-element Alloy Identified Computationally
Alloys, Processing, Applications, Models and Software: The Wide Domain of Gibbs Energies Sets Giving Impulse to Invention
Application of Calphad-based Computational Tools to Alloy Development for Additive Manufacturing
Calphad Applications and Challenges in Gas Turbine Coatings
CALPHAD Databases for Co-based Alloys
Computational Thermodynamics in Microstructure Modelling and Beyond
Developing CALPHAD Databases for Thermophysical Properties of Metals and Alloys
Development of a Comprehensive Diffusion (mobility) Database for Lightweight Magnesium Alloys
Diffusion Mobilities in Co-Ni-Al-Cr System
First-principles Thermodynamics of Refractory Alloys and their Oxides
How Can the CALPHAD Method Do Better?
Improvement of a CALPHAD Database for the Development of Next Generation TiAl Alloys by Targeted Key Experiments on High-temperature Phase Equilibria – The EU Project Advance
Industrial Applications of Thermodynamic and Kinetics Modeling
Interaction of Moving Grain Boundaries with Solutes in Alloys
Materials Property Databases Developed by the CALPHAD Approach and Their Applications in Materials Design
Measurements of Thermophysical Properties of Metals and Alloys as Input for Computational Thermodynamics
On the Intrinsic Alloying Behavior in the A and M Sublattices of MAX Phases
On the Next Generation of Thermodynamic CALPHAD Databases
Phase Equilibria and Interfacial Migration in Stressed Solids
Phase Equilibria in High-entropy and Complex-concentrated Alloys
Selected Observations of Microstructural Development in Additively Manufactured Metallic Alloys
The Application of Metastable Equilibria in the Analysis of Transformation Behavior
The Third Generation of CALPHAD Descriptions: Case Studies on Al-C and W-C
Thermodynamic Assessment of the Fe-B and Fe-B-C- Systems
Thermodynamic Modeling of Precipitates of Topologically Close-packed Phases
Thermodynamics at Equilibrium and Non-equilibrium – Genomic Tools for Materials Design
Tomorrow fcc Ordering Model
William Hume-Rothery Award Lecture: Phase Diagrams, Computational Thermodynamics and CALPHAD

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