Conference Tools for 2026 TMS Annual Meeting & Exhibition

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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Materials Processing Fundamentals: Towards Sustainable Process Modeling, Design, and Operation

Presentation Title

Introduction to the High-Performance Computing for Energy Innovation Program

Author(s)

Aaron Fisher

On-Site Speaker (Planned)

Aaron Fisher

Abstract Scope

High-Performance Computing (HPC) has significant potential to transform US manufacturing by enabling higher energy efficiency, greater US competitiveness, and enhanced security through onshoring production of critical materials and supplies. As manufacturers face increasing global competition, supply chain disruptions, and rising energy demands, leveraging advanced computing technologies is more important than ever. In this discussion, we will explore the various ways HPC is being utilized across key manufacturing sectors and highlight our efforts to facilitate HPC adoption through the High-Performance Computing for Energy Innovation (HPC4EI) program.

Proceedings Inclusion?

Planned:

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A New Thermodynamic Process-Simulation Tool for Sustainable Metallurgy Integrating LCA and Optimization With FactFlow

Advancements in Friction Stir Welding of Copper Using Diamond Tooling

Applications of Machine Learning and AI in HPC4EI-Funded Projects for Manufacturing and Materials Research

CFD Modelling of Iron Concentrate Reduction in a Rotary Kiln Furnace

Crystal Nucleation and Growth in FluoroZirconate (ZBLAN) Glasses: Mesoscopic Study of the Effect of Shear Rate and Viscosity

HPC/AI Based Methodology for Flashback Detection in Hydrogen Blended Natural Gas Combustors

Influence of the Argon Gas Injection Position in a Metallurgical Ladle Using a Twisted Channels Nozzle on Slag Layer Opening and Mixing Times

Introduction to the High-Performance Computing for Energy Innovation Program

Investigating In-Situ Material Flow and Thermomechanical Conditions in Friction Extrusion With Varying Die Geometries Using SPH Method

Material Flow Optimization for Sustainable Aluminum Manufacturing

Modeling, Design, and Operation Maintenance for Long Campaign Life Blast Furnace Hearth

Molecular Simulation Study on Kinetics of CO2 Adsorption in Mg-MOF Decorated With Amine Groups

Multi-Physics Simulation of Inclusion Composition in the Continuous Casting Bloom: Effects of Element Segregation and Inclusion Diameter

Numerical Modeling of Solidification Structure and Macrosegregation in Large Bloom Continuous Casting With MEMS and FEMS: A Three-Phase Volume Average Approach

Optimization of Vacuum Induction Melting Ultrasonic Atomization Through Improved Process Monitoring

Probabilistic Spot-Melting Scan Strategy for Microstructure Engineering in Electron Beam Additive Manufacturing

PUMA: Simulating Powder Post-Processing for Advanced Manufacturing

Quench Process Modeling and Simulation in the Heat-Treatment of Critical Aerospace Components

Recovery and Re-Use of Metal Feedstock Powder in Cold Spray Deposition: Reducing Material Waste Through Powder Reclamation

Scale-up Electrodeposition of Ti-Al Alloys in AlCl3:BMIC Ionic Liquid Electrolyte

Syntheses of Ceramic Composites by Chemical Vapor Infiltration Using Microwave Heating

Three-Dimensional Multiphase Numerical Modeling of Gas Injection in the Anode Furnace for Copper Refining

Two-Phase Internal Cooling Correlations for High-Pressure Die Casting

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