Conference Tools for 2024 TMS Annual Meeting & Exhibition

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About this Symposium
Meeting	2024 TMS Annual Meeting & Exhibition
Symposium	Advances in the State-of-the-Art of High Temperature Alloys
Sponsorship	TMS Structural Materials Division TMS: High Temperature Alloys Committee
Organizer(s)	Dinc Erdeniz, University of Cincinnati Benjamin Adam, Oregon State University Michael Kirka, Oak Ridge National Laboratory Jonah Klemm-Toole, Colorado School of Mines Juan Carlos Madeni, Johns Manville Technical Center Govindarajan Muralidharan, Oak Ridge National Laboratory
Scope	High temperature alloys continue to play a vital role in the transportation and energy industries. While both sectors look to improve the system efficiency by raising the maximum temperature the alloys can withstand, the transportation industry is also focused on lightweighting. In recent years we have seen advances in a number of different alloy systems. This symposium aims at providing a setting for researchers from academia, government, and industry to discuss recent advances in the understanding of various mechanisms that influence the strength, service life, and environmental resistance of high temperature alloys.
Abstracts Due	07/15/2023
Proceedings Plan	Planned:

PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

A Phase-Field-Informed Micromechanical Modeling of Ni-based Single-crystal Superalloys to Predict Anisotropic Behavior During Monotonic Tension

Comparison of the Dwell Fatigue Crack Growth Behavior of Additively and Conventionally Manufactured Inconel 718

Developing a High-throughput Oxidation Screening Test

Effect of Cr on Twinning in Ni-based Superalloys

Enhancing the Creep Performance of Ni-based Superalloy Castings

Grain Structure Control Through Site Selective Exploitation of Recrystallisation Mechanisms in LPBF Ni-based Superalloys

High Temperature Mechanical Behaviour of Novel Chromium Superalloys via Small Punch Testing

High Temperature Oxidation Behavior of (CoCrNi)100-xCx Medium Entropy Alloy Fabricated by Laser Powder Bed Fusion

Improving Creep Resistance of θ′-strengthened Al-Cu Alloys Through Grain-boundary Strengthening

Influence of Strain and Heating Rate on Grain Growth of Super Solvus Processed Powder Metallurgy Ni-based Superalloys

Investigating the Oxidation Mechanisms of Polycrystalline Ni-based Superalloys at 800°C With Varying Ti:Ta Contents

Microstructure-property Linkage of LW-DED Haynes 282Ž Superalloy to Fabrication and Post-processing Heat Treatment

Microstructure and Mechanical Properties of Cu-Al2O3 Composites for Elevated Temperatures Applications

Microstructure and Mechanical Properties of Ni-based Superalloys Nimonic 105 With Varying Carbon Content

Neutron and Synchrotron Diffraction Studies to Understand the Mechanism and the Influence of Hydrogen on the Microstructure of Superalloys

New Strengthening Mechanisms in Ni-base Superalloys

Occurrence of Heteroepitaxial Recrystallization and Following Microstructure Evolution in Polycrystalline Ni-base Superalloy Under Static Annealing

Processing and Microstructure Development in Advanced Engineering Alloys for Extreme Environments

Property-microstructure Evaluation of L-PBF Ni-based Superalloy Candidates for Industrial Gas Turbine (IGT) Fuel Injectors

Quantification and Characterization of Solute Segregation in Binary Ni-Co for Alloy Design

Rafting Behavior of Single Crystal Ni-based Superalloys After Laser Peening: Insights and Implications

Role of Diffusion-induced Grain Boundary Migration in the Oxidation Response of a Ni-30Cr Alloy

Surface-roughness Effects on Oxidation Rate at High Temperatures in Ni-based Single-crystal Superalloys

Thermodynamic Model-guided Regulation of Self-propagating In-Situ Synthesis of Titanium-aluminum Alloys

Variant Selection of Intragranular Ni2(Mo,Cr) Precipitates in the Poly- and Single- Crystalline Ni-Mo-Cr-W Alloy

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