ProgramMaster Logo
Conference Tools for 2024 TMS Annual Meeting & Exhibition
Login
Register as a New User
Help
Submit An Abstract
Propose A Symposium
Presenter/Author Tools
Organizer/Editor Tools
About this Symposium
Meeting 2024 TMS Annual Meeting & Exhibition
Symposium Mechanical Response of Materials Investigated through Novel In-situ Experiments and Modeling
Sponsorship TMS Structural Materials Division
TMS Functional Materials Division
TMS: Advanced Characterization, Testing, and Simulation Committee
TMS: Thin Films and Interfaces Committee
Organizer(s) Saurabh Puri, VulcanForms Inc
Amit Pandey, Lockheed Martin Space
Dhriti Bhattacharyya, Australian Nuclear Science and Technology Organization
Dongchan Jang, Korea Advanced Institute of Science and Technology
Josh Kacher, Georgia Institute of Technology
Minh-Son Pham, Imperial College London
Shailendra P. Joshi, University of Houston
Jagannathan Rajagopalan, Arizona State University
Robert Wheeler, Microtesting Solutions LLC
Scope The focus of this symposium is to discuss current research and key developments in theory, computational and experimental methods to study and predict the mechanical properties of materials in application-orientated environments. These environments may include, but are not limited to high temperature, cryogenic temperature, electrical and magnetic field, gas, radiation, chemical, pressure extremes, and humidity. In-situ mechanical testing using SEM, TEM, AFM, Raman, synchrotron, X-ray, IR, and FTIR observation techniques during testing are becoming increasingly popular for studying mechanical behavior of materials. Many such techniques have been developed to probe material response to stimuli across nano- to macro-length scales. At the same time, significant progress has been made in the development of high fidelity models to analyze the behavior of materials at different spatial and temporal scales. The intent of the symposium is to provide a forum for researchers from national laboratories, academia, and industry to discuss research progress in the area of in operando and/or in-situ mechanical testing at small length scales, advances in computational approaches and most importantly, integration of experiments and modeling to accelerate the development and acceptance of innovative materials and testing techniques.

Topics include:
Development of instruments and experimental methodology for in-situ techniques and/or testing at non-ambient temperatures and/or environments.

Imaging, analytical and modeling techniques to correlate microstructure, defects, crystal orientation, and strain field with mechanical properties.

Microstructural observations using in-situ techniques across length scales.

Experimental characterization and multiscale modeling of deformation of high-temperature materials, high-strength materials, thin films, 1D, 2D, and other low-dimension nanostructures, and interfaces.

Uncertainty quantification and quantitative validation of computational models.

We are planning to have a joint session with the symposium entitled, Advanced Real Time Imaging. Respective papers will be selected to include in the joint session.

Abstracts Due 07/15/2023
Proceedings Plan Planned:
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

A Concurrent Atomistic-continuum Study on the Peierls Stress of Screw Dislocations in BCC Iron
A Mesoscale-continuum Modeling Method to Predict the Acceleration of Laser-driven Flyers
A Multiscale Framework to Predict the Kinetics of Phase Transformation in In Situ Laser Shock Experiments
A Study on Slip Band Evolution and Its Relationship with Local Dislocation Glide Resistance in Polycrystalline Materials
An Investigation of Mechanical Behaviours of Pure Zirconium With and Without Hydrides Using In-situ Testing Method
Anomalous Crack Growth Resistance in Atomically Layered Ternary Carbides
Assessment of Phase-field Simulations of Brittle Fracture Using High Energy Diffraction Microscopy and Tomography
Calcium Dependent Twin Type Selection in Texture Weakened Mg Alloys
Characterization of Damage Accumulation Mechanisms in Porous Carbon Fiber Material by Combining Compression Testing with In-Situ Micro-CT and Digital Image Correlation
Controlling Dislocation Motion Using an Electric Field
Crystal Plasticity Modeling of Microstructure Clones
Cyclic Degradation of Superelasticity of Fe-Ni-Co-Al-Ti Shape Memory Alloy with Strong Texture Studied by In Situ Deformation
D-38: Oxidation and Post-quench Ductility of Chromium Coated Zircaloy-4
Defect-based Damage Model via a Mesoscale Defect Dynamics Modeling
Deformation Behavior of Plastic Amorphous Aluminum Oxide Thin Films
Effect of Grain Interaction on the Evolution of Cube Texture during Thermo-mechanical Processing of Medium to High SFE FCC Metals
How Can We Benchmark Discrete Dislocation Dynamics? – A Comparison to Movies of Dislocation Structure Evolution Obtained from Dark-field X-ray Microscopy
Identifying Stages of Strain Hardening in the Gamma-rich Transformative Complex Concentrated Alloy Using In-situ Synchrotron Diffraction Technique
In-situ Micro Tensile Test of Pure Iron Using High Resolution EBSD for the Study of Dislocation-grain Boundary Interactions
In-situ Study on Thermal Compression Bonding of Nanotwinned Cu Pillars
In-situ TEM Deformation of High Entropy Alloys Across Multiple Temperature Regimes
In Situ 3D Failure Mechanisms in a Pristine Chondrite Meteorite
In Situ EBSD/HRDIC Analysis of Twin Transmission and Co-nucleation at Grain Boundaries in Mg
In Situ Micro-computed Tomography of Reentry Fabrics under Tensile Loading
Interface Characteristics of Tailored Thin Films Examined Using Micromechanical Spectroscopy
Mechanical Responses of a Ductile-phase-toughened Tungsten Alloy Irradiated with Ion Beams at an Elevated Temperature
Micro-shear of Silicon: Effects of Temperature and Crystal Orientation Analyzed Using In-situ Digital Image Correlation
Microstructure Clones
Multiscale Analysis of Deformation Behavior in Silver Nanowires
Nanoporous Amorphous Carbon Nanopillars with Lightweight, Near-theoretical Strength, Large Fracture Strain, and High Damping Capability
Post-Quench Ductility of FeCrAl Alloys Subjected to High Heating Rates
Quantifying Microscopic Strain Localization Behavior of Ferrite-martensite Dual Phase Microstructures with Correlative Characterization Techniques
Rate-dependent Transition of Dislocation Mechanisms in a Magnesium Alloy
Small-scale Mechanical Testing of Material Interfaces Enabled by Site-specific Femtosecond Laser Machining
Streamlined Assessment of Microstructure-Mechanical Property Relationships in Ni Based Superalloys
The Characterization of Local Deformation Fields Around Zirconium Hydrides
Twin Transmission and Variant Continuity in Mg Bicyrstals
Uncertainties in Estimating Hardening Model Parameters and Their Influence on the Flow Stress and the Hole Expansion Tests of Dual-Phase (DP600) Steel Specimens
Understanding Edge Cracking in a Quenching and Partitioning Steel: An In-situ Study
Unraveling the Fast Strain Bursts Dynamics Using Acoustic Emission Measurements
In situ Investigations into the Adhesion and Compression of Catalyst-relevant Metal Nanoparticles


Questions about ProgramMaster? Contact programming@programmaster.org