Conference Tools for 2025 TMS Annual Meeting & Exhibition

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About this Abstract
Meeting	2025 TMS Annual Meeting & Exhibition
Symposium	Accelerated Discovery and Insertion of Next Generation Structural Materials
Presentation Title	High Throughput Mechanical Testing with Multi-Gage and Topology Optimized Specimens
Author(s)	Syed Idrees Afzal Jalali, Yakov Zelickman, Anchen Tong, John Sharon, Jamie Guest, Kevin Hemker
On-Site Speaker (Planned)	Syed Idrees Afzal Jalali
Abstract Scope	We unveil several novel high throughput specimen designs and unique testing strategies, pushing the boundaries of what’s possible in material testing. Utilizing topology optimization (TO), our innovative sample designs incorporate various gage sections capable of assuming distinct stress states—tensile, compressive, and shear. This allows for the measurement of comprehensive yield properties from a single TO specimen test. Furthermore, we introduce a new multi-gage resonant fatigue specimen design, enabling high throughput fatigue testing at a frequency of ~1kHz. This method slashes testing time by making it possible to measure a full S-N curve from one test. These advancements are poised to not only accelerate material testing processes but also significantly enhance the pace of material discovery.
Proceedings Inclusion?	Planned:

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

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CALPHAD-Enabled Prevention of Strain Age Cracking in Additively Manufactured, High-Temperature Co-Based Superalloys

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Combinatorial Discovery of Refractory Medium Entropy Alloys in Composition and Temperature Dimensions: Effect of Elements and Phase Transformation

Combinatorial Investigation of Amorphous/Nanocrystalline Stability in Ferritic Alloys

Combinatorial Synthesis and High Throughput, High Temperature Mechanical Characterization of Refractory Alloys

Data Driven Alloy Design of High Entropy Alloys for Temperature Dependent Mechanical Properties

Enabling Next Generation Reaction Injection Molding (RIM) for Lightweight Structures

Harnessing High-Throughput Experiments and Machine Learning for CuAgZr Alloy Development

High Entropy Alloys to High Entropy Conventional Alloys

High Throughput Mechanical Testing with Multi-Gage and Topology Optimized Specimens

High Throughput Quantification of Recrystallization Parameters for Alloy Development

High Velocity (HiVe) Joining: A Novel Process to Join Similar/Dissimilar Alloys

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Microstructure and Mechanical Properties of ECAP Processed High Mn Steel Testing at 298 K and 77 K

Modeling of Microstructural Effects on Mechanical Properties of High Entropy Alloys at Mesoscale

Optimizing BCC/B2 Microstructures in AlCrMnTiV High Entropy Alloys by Combinatorial Synthesis

Precision and Efficiency in Nanoindentation: Automated Contact Area Measurement Techniques

Predicting Chemistry-Dependent Mechanical Behavior in High-Entropy Alloys: Iterative Design Insights from the BIRDSHOT Center Using Data-Driven and Generative Models

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