Conference Tools for 2020 TMS Annual Meeting & Exhibition

Help

About this Symposium
Meeting	2020 TMS Annual Meeting & Exhibition
Symposium	Hume-Rothery Symposium: Thermodynamics, Phase Equilibria and Kinetics for Materials Design and Engineering
Sponsorship	TMS Structural Materials Division TMS: Alloy Phases Committee TMS: Integrated Computational Materials Engineering Committee
Organizer(s)	Carelyn E. Campbell, National Institute of Standards and Technology Michael C. Gao, National Energy Technology Laboratory Wei Xiong, University of Pittsburgh
Scope	Computational methods have become essential tools for materials and process development. The CALPHAD method has been known as one of the pillars of integrated computational materials engineering among these tools because of its focus on alloy systems that are of practical interest to industry. CALPHAD calculations are being coupled to an array of process simulations, such as solidification and phase field simulations. Today, CALPHAD databases are available for thermochemical properties, diffusion mobilities and molar volume and unite data from experimental measurements and atomistic simulations. The focus of this symposium is to gain an overview of the state-of-the-art of computational and experimental methods in the field of thermochemistry, phase equilibria and kinetics of inorganic materials and application of the results to solve engineering problems. The presentations in this symposium are invited only.
Abstracts Due	07/15/2019
Proceedings Plan	Undecided

PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

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