Conference Tools for 2026 TMS Annual Meeting & Exhibition

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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Materials Kinetics and Mechanisms Under External Forcing-Driven Conditions

Presentation Title

SolidStir® material processing: Is it a viable tool for kinetics-driven far-from- equilibrium alloy development?

Author(s)

Kumar Kandasamy

On-Site Speaker (Planned)

Kumar Kandasamy

Abstract Scope

Traditionally non-thermodynamic-equilibrium processing methodologies use rapid solidification techniques, mechanical alloying, laser processing, and sever plastic deformation techniques. External electrical and magnetic fields during solidification and thermomechanical processing has also been utilized in this approach. The fucus of these methodologies is to stabilize metastable phases in the service conditions to demonstrate extraordinary performance. However, the progress in this area is limited by availability of scalable material processing technologies. SolidStir® is a novel solid-state shear intense thermomechanical material processing method combined with mixing, consolidation, extrusion and deposition capability. This advanced material processing technology will be explored and analyzed for promoting far-from-thermodynamic equilibrium metastable phases in an immiscible metal alloy system.

Proceedings Inclusion?

Planned:

Keywords

Additive Manufacturing, Process Technology, Phase Transformations

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Abnormal Grain Growth under Cyclic Loading

Additive Friction Stir Deposition: A Rich Source of Peculiar Kinetic Phenomena Driven by External Forcing

Atomistic Insights into Configurational Evolution and Mobility of Dumbbell Interstitials in Fe-Cr Alloys

Elucidating the three-dimensional radiation-induced segregation morphology at grain boundaries in proton-irradiated 316L stainless steel

Energy-Resilient Materials: Stabilized Nanocrystalline Metals for Extreme Environments

Exploring Metastability Wells: Phase Evolution and Functional Design via Solid-State Processing

Extending the concept of defect-phase to driven systems: Opportunities and Challenges

Grain Boundary Structural Transformations Under Extremes

Graph-based analysis of dislocation glide kinetics in random alloys

In Situ Experiments and Atomistic Modeling of Grain Boundary Deformation

Ion Irradiation Effects on Surface Oxidation and Microstructure in Fe-8Cr Epitaxial Films: A Correlative TEM and APT Study

Irradiation-driven high pressure-like defect structure evolution in ceramics.

Mechano-Chemical Effect in Mechanically Driven Complex Concentrated Alloys

Mesoscale models of fluctuations-governed microstructural evolution in alloys: from nucleation and growth to irradiation damage

Microstructural Evolution During Intense Shear Deformation Processing

Modeling the Impact of Radiation Damage on Laser Diode Performance

Morphological Transformations of Radiation-Induced Precipitates at Grain Boundaries

Non-equilibrium Thermodynamics of Dislocations at Large Deformation as a Model Driven System

Nonequilibrium chemical short-range order in externally-driven alloys

Radiation Resistance and Microstructural Evolution of Nanocrystalline Fe-Ti and Fe-Ta Systems Under Ion Irradiation

Reshock Behavior of Aluminum-1100 Alloy

Severe Plastic Strain-Driven Phase Transformations and Microstructure Evolution under High Pressure: New Rules

Shear-Driven Atomic Transport and Compositional Patterning in Additive Friction Stir Deposition of Immiscible Binary Systems

SolidStir® material processing: Is it a viable tool for kinetics-driven far-from- equilibrium alloy development?

Supersonic Microparticle Impact-Induced Interfacial Mixing

Zentropy for Non-equilibrium Thermodynamics

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