Conference Tools for 2020 TMS Annual Meeting & Exhibition

Help

About this Abstract
Meeting	2020 TMS Annual Meeting & Exhibition
Symposium	Hume-Rothery Symposium: Thermodynamics, Phase Equilibria and Kinetics for Materials Design and Engineering
Presentation Title	William Hume-Rothery Award Lecture: Phase Diagrams, Computational Thermodynamics and CALPHAD
Author(s)	Ursula R. Kattner
On-Site Speaker (Planned)	Ursula R. Kattner
Abstract Scope	Phase Diagrams are frequently hailed as roadmaps for materials and process development and are frequently graphical representations of phase equilibria as function of composition, temperature and/or pressure. The graphical representation imposes a limit on the information that can be communicated while computational thermodynamics is limited by the available computational resources. Within computational thermodynamics the CALPHAD method has established itself as a pillar for computational materials and process design and its databases are viewed as part of a materials genome. The CALPHAD method was established several decades ago for thermodynamic modeling of phase equilibria and its models have become increasingly sophisticated with time for efficient calculation of realistic phase diagrams and thermochemical properties. The conceptual design of CALPHAD models also makes them well suited for describing other phase-based properties, such as diffusion mobilities, molar volume and other thermophysical properties. Recent advances in CALPHAD modeling and database development 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

Questions about ProgramMaster? Contact programming@programmaster.org