Conference Tools for 2024 TMS Annual Meeting & Exhibition

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About this Symposium
Meeting	2024 TMS Annual Meeting & Exhibition
Symposium	Hume-Rothery Symposium on Alloy Microstructure Science and Engineering
Sponsorship	TMS Structural Materials Division TMS Materials Processing and Manufacturing Division TMS: Alloy Phases Committee TMS: Integrated Computational Materials Engineering Committee TMS: Phase Transformations Committee
Organizer(s)	Long-Qing Chen, Pennsylvania State University Yufeng Zheng, University of North Texas Wei Xiong, University of Pittsburgh Rajarshi Banerjee, University of North Texas
Scope	This symposium will bring together experts in advanced theory, computation and experimental characterization of microstructural evolution during solid-state phase transformations and plastic deformation in complex multicomponent alloys. The development of modern computational and experimental tools has led to better fundamental insights into pathways and mechanisms of solid-state transformations and deformation. The symposium will survey the current state-of-the-art fundamental understanding of transformation and deformation mechanisms and the intrinsic coupling between the two processes, leading to the development of new alloy design principles and strategies. Since integration between experiment and computation has become a hallmark in alloy microstructure science and engineering, sessions will cover mechanism-based modeling and simulations motivated and informed by experimental characterization and novel alloy microstructure design and engineering guided by computation. The specific topics will include but not be limited to: (1) Phase transformation pathways and deformation mechanisms in complex multicomponent alloy systems such as Ni-/Co-base superalloys, Ti-, Al- and Mg-alloys, HEAs, and shape memory alloys; (2) Phase transformation and deformation in compositionally and/or structurally modulated or graded materials. Presentations in this symposium are by invitation only.
Abstracts Due	07/15/2023
Proceedings Plan	Planned:

PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

3D Diffuse Scattering, Displacement Short-range Ordering, and Phonons in Pre-martensitic State

A Novel Growth Mechanism of the Alpha Phase in Titanium Alloys

A Specialty Alloy Manufacturer’s Perspective of How Computation Modeling of Microstructure Evolution Can Help with Alloy Design and Product Development

CALPHAD-based Kinetic Simulations for Metallurgical Practices

Characterization and Modeling of Concurrent Precipitation in Mg-Al-Sn Alloys Using an Improved Kampmann-Wagner Numerical (KWN) Model

Combined Creep and Fatigue Modeling

Data for Quantitative Phase Field Modeling

Determination of Mechanistic Information for Simulation Schemes of Transformation Pathways and Deformation Behavior in B2/BCC Refractory Complex Concentrated Alloys

Dynamic Local Phase Transformations: A New Creep Strengthening Mechanism in Ni-Base Superalloys

Explore the Shear Component in Precipitate Plate Formation in Light Alloys

Friction-mediated Subsurface Structural Transformations

High-Throughput Experiments for Computational Thermodynamics and Kinetics

Invention and Applications of Universal Machine Learning Interatomic Potential

Is Molar Gibbs Free Energy Always a Chemical Potential?

Linkage between Microstructure and Mechanical Properties in Alpha-Beta Titanium Alloys

Linking Phenomenological Theories of Phase Transformations to First-principles Descriptions of Solids

Nucleation Mechanisms of GP Zones and η′ Precipitates in Al-Zn-Mg Alloys

On Slip Irreversibility during Cyclic Deformation of FCC Alloys

Ordering Induced Phase Stabilities and Transformation Pathways in FCC Based Complex Concentrated Alloys or High Entropy Alloys

Perspectives on Metal Science for Materials Design

Revisiting Classic Recrystallization Experiments with Modern Simulation: Understanding the Mechanisms Behind the Development of Cube Orientation in Medium to High Stacking-fault Energy FCC Metals

Self-assembled Nanostructures in Coherent Two-phase Systems: Crystallography Theory

Shuffle Transformation in Titanium Alloys

Stability and Growth Kinetics of Deformation Twin Embryos in Beta Ti Alloys

Thermodynamic and Kinetic Studies on Microstructure Changes in Additive Manufacturing

Through-process Modeling of Local Mechanical Properties of Cast Aluminum Alloys

Unlocking the Versatility of Additive Manufacturing: Alloy Development and Materials Discovery for Resource-constrained Environments Based on Commercial Feedstock Materials

William Hume-Rothery Award Lecture: Deformation Pathway Engineering and Compositionally and Structurally Modulated Alloy Design

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