Conference Tools for 2026 TMS Annual Meeting & Exhibition

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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Fracture and Deformation Across Length Scales: Celebrating the Legacy of William Gerberich

Presentation Title

In-Situ HRTEM on Atomic-Scale Plasticity in Nanoscale Materials

Author(s)

Scott X. Mao, Changxin Han

On-Site Speaker (Planned)

Scott X. Mao

Abstract Scope

This talk will be the in-situ mechanics for studying the mechanical behavior at atomistic scale for nanometer-sized single element metallic glass and crystal BCC metals. The experimental molecular dynamics with the in-situ high resolution transmission electron microscope is going to open a new approach to directly observe atomic-scaled deformation with in-situ mechanics. I will cover the high stress induced lattice disturbance, dislocation dipole nucleation and competition between slip and twinning in the deformation process of nano-sized body center cubic metals and deformation in single elemental metallic glasses.

Proceedings Inclusion?

Planned:

Keywords

Nanotechnology, Phase Transformations, Process Technology

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Stochastic Approach to Critical Energy Release Rate in Phase-Field Fracture Simulation

Bending Hard Phases to Gerberich’s Will

Deep Learning in Characterization of Nanoindentation Induced Acoustic Events

Ductile-to-Brittle Transition in Quasicrystals Across Length Scales

E-28: Effects of Grain Size on Plasticity Mechanisms of Nanocrystalline MgAl₂O₄ Spinel Under Nanoindentation: Hall-Petch vs. Inverse Hall-Petch

Effects of Grain Size, Orientation, and Indentation Spacing on Nanoindentation Response in 1100 Aluminum

From the Titanic to Nanopillars: Brittle to Ductile Transitions as a Function of Temperature and Size

Harnessing Machine Learning for Quantum-Accurate Predictions of Nonlinearities and Fracture in 2D Materials

In-Situ HRTEM on Atomic-Scale Plasticity in Nanoscale Materials

In Search of Stress-Induced Complexion Transitions in Nanocrystalline Metals

Interface-Driven Strength and Fracture Behavior in Ni-Al Multilayers: Insights from Micromechanical Testing

Linking the Dislocation Microenvironment to Properties in Metals and Alloys

Measuring Toughness at the Microscale - A Tribute to Bill Gerberich

Modulus as a Comminution Compass: Linking Nanoindentation Stiffness to Jet-Milling Size Reduction

Nanoindentation Combined With In-Situ SPM Imaging, and Later With TEM Imaging

New "Eyes and Ears" on the Origins of Friction From Two-Axis Nanoindentation

Plasticity Effects and Fracture at the Microscale

Recent Advances on the Size Effect on Fracture Toughness of Materials: The Role of Crack Tip Stress in Explaining Crack Size and Specimen Size Effects

Revealing the Line-Defect-Based Mechanisms of Deformation-Induced Martensitic Transformations

Role of Grain Boundary Slip Transfer on Deformation and Damage Behavior in Titanium

The Stochastic Buckling of Geometrically-Imperfect Hemispherical Shells Exhibits a Similar Size Effect as the Strength of Brittle Solids

Yield Points During Indentation: What One Small Step Can Tell You

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