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Meeting

2025 TMS Annual Meeting & Exhibition

Symposium

Mechanical Response of Materials Investigated Through Novel In-Situ Experiments and Modeling

Presentation Title

Operando, Correlated Mechanical Microscopy of the Ni—Mo System

Author(s)

Jeffrey M. Wheeler

On-Site Speaker (Planned)

Jeffrey M. Wheeler

Abstract Scope

Mechanical microscopy is an emerging technique that uses high-speed nanoindentation to map the mechanical behavior and extract phase-level properties from complex microstructures with micron-scale lateral resolution. As such, it is a powerful technique for combinatorial materials science investigations on samples with compositional gradients, such as diffusion couples. In this work, correlated high-speed nanoindentation and energy-dispersive spectroscopy (EDX) were applied to investigate the Ni—Mo system at temperatures from ambient to 500 °C. This allows the temperature-dependent behavior of a wide range of compositions, including both solid-solutions and intermetallics, to be statistically characterized in a high-throughput manner.

Proceedings Inclusion?

Planned:

Keywords

Characterization, Mechanical Properties, High-Temperature Materials

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Crystal Plasticity Experiments With Microstructure Clones

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E-36: The Role of Precipitates on Cyclic Stability of NiTi and NiTiCu Shape Memory Alloy Thin Films

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E-51: Microstructure and Mechanical Property Correlation of Multi-Component Materials Using the PI 89 Auto SEM PicoIndenter

Evaluating Phase-Field Simulations of Brittle Fracture in Polycrystalline Materials

Evaluation of the ΔT Creep Test as a Parallelized Test Method

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Operando, Correlated Mechanical Microscopy of the Ni—Mo System

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