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Meeting MS&T21: Materials Science & Technology
Symposium Probing Defect Properties and Behavior under Mechanical Deformation and Extreme Conditions
Presentation Title Machine Learning Driven In-situ TEM with Ion Irradiation
Author(s) Meimei Li
On-Site Speaker (Planned) Meimei Li
Abstract Scope Understanding and evaluation of a material's response to an irradiation environment has been a bottleneck in the development, qualification and deployment of new materials and manufacturing technologies in nuclear energy systems. The convergence of high-performance computing, machine learning, high-throughput experimentation, and in situ characterization has the potential to make the materials discovery and diagnosis many times faster than conventional approaches. This talk discusses our recent effort toward machine learning/artificial intelligence (ML/AI)-driven in situ TEM with ion irradiation to rapidly and efficiently assess the irradiation tolerance of a material in nuclear environments. This ML/AI-enabled irradiation diagnosis tool is envisioned to provide real-time microstructure imaging, real-time defect analysis, and real-time property prediction with increasing irradiation dose, and offer a high-fidelity forecast of a material's irradiation tolerance that could dramatically shorten the material discover and development cycles.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Statistical Approach for Atomistic Calculations of Vacancy Formation Energy and Chemical Potentials in Concentrated Solid-solution Alloys
Automated Defect Detection in Electron Microscopy with Machine Learning
Defect Absorption at Grain Boundaries: A Grain Boundary Structure Perspective
Defect Properties and Deformation Mechanisms of Multi-component Intermetallics
Designing Metal and Amorphous Ceramic Composites for Extreme Conditions
Effects of Annealing and Ion Irradiation on Helium Implanted NiCo and NiFe Concentrated Solid-solution Alloys
Effects of Cr On 1/2<111> to <100> Loop Transformation in Concentrated Fe-Cr Alloys under Irradiation
Effects of Electronic Structures on Defect and Mechanical Properties of BCC Multicomponent Alloys
Elemental Partitioning Behavior among Precipitates in Alumina-forming-austenitic Stainless Steel
Enhanced Load Transfer and Ductility in Al-9Ce Alloy through Heterogeneous Lamellar Microstructure Design by Cold Rolling and Annealing
Estimating the Strengthening Parameters for Irradiated Alloys Using Atomic Scale Dislocation Dynamics
Impact of Carbon Nanotube Defects on Fracture Mechanisms in Ceramic Nanocomposites
Impact of Grain Boundary and Surface Diffusion on Fission Gas Release in UO2 Nuclear Fuel Using a Phase Field Model
In-situ Studies on Radiation Response of a Nanotwinned Steel
In-situ Study of Failure Defects in Cu/Nb Nanolaminates under Deformation
In-situ Transmission Electron Microscopy of Intermittent Dislocation Activities and Deformation Mechanisms
Influence of Microstructural Variation on Spall Failure of Al7085
Investigating Deformation Mechanisms in Ni-based Superalloys with Compact γ'- γ" Coprecipitates
Irradiation-induced Self-organization of the Microstructure in Irradiated Alloys and Its Influence on Mechanical Properties
Irradiation Defects and Strain-induced Martensitic Transformations
Irradiation Response of FCC and BCC Compositionally Complex Alloys Using In-situ and Ex-situ Irradiations
Lattice Distortion in NbTaTiV and NbTaTiVZr Refractory High-entropy Alloys
Local Phase Transformation Strengthening in Ni-based Superalloys
Long-range One-dimensional Glide of Defect Clusters in Irradiated Materials: Experimental Evidence and Consequences
Machine Learning Driven In-situ TEM with Ion Irradiation
Measuring Elemental Segregation and Vacancy Migration Using Atom Probe Tomography
Mechanical and Microstructural Responses of Severe-plastic Deformed High Entropy Alloys under Irradiation
Multimodal and Multiscale Defect Characterization and Property Correlation for Nuclear Fuel and Materials via Advanced Post Irradiation Examination Techniques
Nanomechanical Properties of Neutron Irradiated Austenitic Steels
Now On-Demand Only - Imaging Electronic Properties of Ferroelectric Interfaces and Domain Walls via 4D STEM
Now On-Demand Only - The Role of Anisotropy on the Defect Self-organization in Metals under Irradiation
Phase-field Modeling of Electromigration-mediated Void Migration and Coalescence under Mechanical and Current-stressing in Interconnect Lines
Probing Materials Properties across Scales with Scanning Diffraction in Transmission Electron Microscopy
Radiation Enhanced Diffusion in Fe2O3 and Cr2O3
Studying Radiation Effects in Nuclear Fuels via Advanced Characterization and Modeling
Surprisingly High Irradiation-induced Defect Mobility in Fe3O4 as Revealed through In Situ Transmission Electron Microscopy
Survey of Defect Absorption Effects in Grain Boundaries
Switching the Fracture Toughness of Single Crystal ZnS by Light Irradiation
Synchrotron High-energy X-ray Studies of Nuclear Structural Materials: Deformation and Additive Manufacturing
The Effects of Sample-preparation-induced Defects on the Mechanical Properties of Single Crystal Aluminum Nano-pillars
The Impact of Elastic Anisotropy on Hydride Morphology in Zirconium
The Role of Interfaces in Mechanical Response and Radiation Resistance of Ceramics
Ultra-high Strength and Plasticity Mediated by Partial Dislocations and Defect Networks

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