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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Material Responses Investigated Through Novel In-Situ Experiments and Modeling

Presentation Title

Fracture Toughness of (CrMoTaVW)C

Author(s)

Jordan Brown, Kristy Meyer, Ali Sarikhani, William Fahrenholtz, Shen Dillon

On-Site Speaker (Planned)

Jordan Brown

Abstract Scope

High-entropy carbides have attracted interest as promising refractory structural materials. This work seeks to understand the fracture properties of a specific high-entropy carbide system (CrMoTaVW)C. In situ TEM-based notch beam cantilever fracture toughness experiments were performed that measure load-displacement response and fracture load. Finite element method (FEM) simulations were used to calculate the fracture toughness of the specimen from the far-field data. Using a contour integral approach, we computed the J-integral in our FEM models to evaluate fracture toughness for several specimens.

Proceedings Inclusion?

Planned:

Keywords

Other, Other, Other

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Experimental–Numerical Micromechanical Analysis of Silicon Micro-Scratching

Fracture Toughness of (CrMoTaVW)C

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In Situ Synchrotron Thermo-Mechanical Testing With Rotational and Axial Motion Systems IV (RAMSIV)

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Investigating Subgrain Growth During Early-Stage Recrystallization in High-Purity Aluminum With In-Situ EBSD

Mapping Cracks and Their Strain Fields in Microsamples by Complementary In Situ Experiments

Materials Responses During Laser Additive Manufacturing Revealed by X-Rays

Orientation and Temperature Dependence of Deformation Mechanisms in Tantalum: Insights From Micropillar Compression Tests

Plastic Strain Localization at Twin Boundaries in Nickel Under Cyclic Loading: A Three-Dimensional Discrete Dislocation Dynamics Study

Quantitative Imaging Methods for Deciphering Stability in Nanocrystalline Metals

Slip Band Evolution and Localized Deformation in Polycrystals: A Coupled XFEM and CPFEM Study

Thermal Conductivity Measurement of a Thin Layer of the Single Crystals of β Phase Lead Oxide Using Time Domain Thermoreflectance (TDTR) Technique

Tracking Cerium Oxidation Pathways via In-Situ Atom Probe Tomography

Using High-Energy Diffraction Microscopy and Tomography to Assess Phase-Field Fracture Models for Brittle Fracture

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