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About this Symposium
Meeting 2024 TMS Annual Meeting & Exhibition
Symposium Advanced Real Time Imaging
Sponsorship TMS Functional Materials Division
TMS Structural Materials Division
TMS: Advanced Characterization, Testing, and Simulation Committee
TMS: Alloy Phases Committee
TMS: Biomaterials Committee
Organizer(s) Jinichiro Nakano, MatterGreen
David E. Alman, National Energy Technology Laboratory
Il Sohn, Yonsei University
Hiroyuki Shibata, Tohoku University
Antoine Allanore, Massachusetts Institute of Technology
Noritaka Saito, Kyushu University
Zuotai Zhang, Southern University of Science and Technology
Bryan Webler, Carnegie Mellon University
Wangzhong Mu, KTH Royal Institute of Technology
Pranjal Nautiyal, Oklahoma State University
Jiawei Mi, University of Hull
Scope Real time observations can provide important information needed to understand materials behavior, as these techniques can provide temporal and spatial insights free from artifacts otherwise induced from conventional experimental techniques. Traditional and emerging advanced imaging techniques, which may be optical or non-optical, would allow such observations. Methods may be enhanced with capabilities that enable heating and cooling, controlled atmospheres, and application of stresses; and can be used to generate real time thermodynamic and kinetic data needed to study a variety of materials and processes. This symposium encompasses a broad range of materials science topics enabling cross-cutting opportunities for multiple disciplines (biomaterials, energy materials, functional materials, structural materials, etc.) while topics will be separately categorized in the technical program. Presentations are solicited on the application of these methods to materials science and industrial processes, as well as on development of such techniques.

Topics include, but not limited to:
• Studies using real time optical (e.g., visible light, white light, laser, IR, and UV) and non-optical (e.g., scanning probe, electron, and ultrasound) imaging techniques
• Researches using in-situ, in-operando, in-vitro, and in-vivo observation imaging techniques, such as thermal imaging furnace and other real time imaging methods
• Confocal techniques, including fluorescence and reflection types, which may be equipped with capabilities such as heating/cooling chambers, gas chambers, mechanical testing, Raman spectroscope, mass spectrometry, and FTIR
• Microscopic or telescopic imaging methods include hot thermocouple, resistance heating, and sessile drop techniques used for high temperature phenomena.
• Thermodynamic and kinetic data from these techniques, useful for phase diagram constructions, oxidation/corrosion modeling, phase formation kinetics studies, etc.
• Work using high speed and slow speed cameras
• Materials used in manufacturing real time imaging devices
• Novel technologies and methodologies for emerging imaging devices

The symposium plans the following joint sessions with:
• The Mechanical Response of Materials Investigated through Novel In-situ Experiments and Modeling symposium

Respective papers may participate in part of the dedicated joint session.

Abstracts Due 07/15/2023
Proceedings Plan Planned:

Correlating Laser Process Conditions to Balling Severity with Time-resolved Synchrotron X-ray Visualization
Delamination Mechanisms in 2D Transition-Metal Dichalcogenides by In-situ Nanoscratch Visualization
Depicting Fast Processes in Real-time by Ultra-high Speed Synchrotron-based Hard X-ray Imaging
Dynamic Imaging of Fast Processes Using Laboratory X-ray Computed Tomography
Effect of Wettability on Penetration and Flotation Behavior of a Particle in Refining Process
Enhanced Raman Spectroscopy for Trace Environmental Contaminant Detection and Quantification.
G-2: Enhancement of Ultrasound Imaging via Ultrasonic Sheared Nanobubbles
Handheld Ultrasound Device for Characterization of Soft Materials
In-situ Imaging of Architected Materials Made from Nanoclusters and DNA
In-situ Imaging of Transonic Dislocations & Plasticity
In-situ Observation of Decarburization with CO2 and Bubble Formation in Si-containing Hot Metal
In Situ Observation Study of Alumina Dissolution in Steelmaking Slags by Single Hot Thermocouple Technique (SHTT)
Interfacial Strength in Microparticle Impact-induced Bonding
Limited Angle X-ray Nanotomography Captures Solidification in 4D
Mechanics of Architected Materials through the Lens of In Situ Characterization
Multimodal Characterization of Sn-Bi Alloy Solidification using Synchrotron X-ray Microtomography and Energy Dispersive Diffraction
Non-destructive Evaluation of Defects and Inclusions in Composite Structures Using Terahertz Time Domain Analysis
Picosecond Laser Ultrasound Spatial and Temporal Tracking of Material Property Changes Under Irradiation
Probing the Dynamics of Materials with Ultrafast Transmission Electron Microscopy
Rapid Solidification of Non-Dilute Binary Alloys: Theory and In Situ Diagnosis
Real-time and In-situ Measurements Using High-speed AFM
Sedimentation of Particles through Foaming Liquid
Seeing Buried Metal/Oxide Interfaces in Action
Seeing Inside Additive Manufacturing with the Extremely Brilliant Source
Shining a Light on Quantum Dots Incorporated Electrospun Nanofibers: Branching and Reinforcement Mechanisms
Solidification and Segregation Characteristics of S31254 Super Austenitic Stainless Steel by In-situ Observation
Sub-microsecond X-ray Radiography at the Formation and Shaping Technology (FAST) Beamline at CHESS
Temperature Sensing with Fiber Bragg Gratings Integrated into Stainless Steels by Spark Plasma Sintering
Towards MHz X-ray High-resolution Holography at European XFEL
Ultrafast Synchrotron X-ray Imaging and Modelling of Ultrasound-driven Bubble-particle Dynamics
Using an Additively Printed Microsensor with Bluetooth Capability to Detect Corrosion
Visualization of High Temperature Phenomena at Interface between Metal and Oxide
Visualization of Molten Slag Suspension by Electrical Resistance Tomography
Wetting Interactions of Anode and Electrolyte in Liquid Metal Batteries
What is the Viscosity of Multiphase Fluid
XRF: A New Materials-science Research Facility for the International Space Station

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