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Meeting 2023 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, Microstructure Engineering
Amit Pandey, Lockheed Martin Space
Dhriti Bhattacharyya, Australian Nuclear Science and Technology Organization
Dongchan Jang, Korea Advanced Institute of Science and Technology
Shailendra P. Joshi, University of Houston
Minh-Son Pham, Imperial College London
Jagannathan Rajagopalan, Arizona State University
Robert Wheeler, Microtesting Solutions LLC
Josh Kacher, Georgia Institute of Technology
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 07/17/2022
Proceedings Plan Planned:
PRESENTATIONS APPROVED FOR THIS SYMPOSIUM INCLUDE

Advanced impactors for laser-induced particle impact testing
Advances in Micromechanics and Digital Twin Modeling of Concrete and Geologic Materials Aided by In-Situ Tomography and 3D X-ray Diffraction
An in-situ SEM study on hydrogen embrittled alloy 718
Assessment of phase-field fracture simulations of brittle fracture in polycrystalline materials
Atomistic perspective of grain boundary plasticity in metals
Characterization of deformation mechanisms near grain boundaries in Mg alloys by means of in situ EBSD and high-resolution digital image correlation
Comparing the influence of edge and screw dislocation on plastic behavior of niobium single crystals: A computational approach
Compressive Behavior of Pure Polycrystalline Cobalt and Other HCP Metals Investigated Using Acoustic Emission
Damage evolution in Al alloys assessed via X-ray computed tomography and crystallographic orientation data
Development and Applications of a Fiber-based Instrument for In-situ Thermal Property Measurements
Direct Measurement of the Effective Mechanical Properties of Additively Manufacturing Octet Truss Lattices using High Energy X-ray Diffraction
Directional Hardening in Metals: GND / Bowout Mechanism
Dynamic cryo-mechanical properties of dewetted nickel microparticles
Effect of defect spatial distribution on ductile failure in Additively Manufactured 316L
Effect of Macrozone Stereology on Crack Growth Rate Predictions in Ti-6Al-4V
Forward Model Based Strain Analysis in Highly Deformed Metallic Systems Using EBSD Patterns
Gradient Shape Memory Alloys: An Exploration of Pseudo and Thermo-elastic Response
High Pressure and In-Situ TEM Deformation of Nanoscale Metallic Interfaces and Precipitates
In-situ microstructure evolution during high temperature deformation of Fe-C-Mn-Si steel
In situ Extreme Micromechanics – Recent Innovations and Prospects
In situ micro-tensile Studies on the effects of ion irradiation on the mechanical properties of small-grained alloys
In situ nano-indentation of a Pt nanoparticle combined with Bragg Coherent X-ray Diffraction Imaging.
In situ synchrotron observation of deformation mechanisms, from hot tears during superalloy solidification to volcanic eruptions
In situ TEM observations of dislocation and twinning activities of Mg via nanoindentation
Integrated Experimental-Numerical testing of “2D” Steel Microstructures
Interfacial plasticity mechanism of hexagonal dislocation network in bcc Iron
KRaStk – A multi-scale toolkit to compute fibrous material properties
Ligament Aspect Ratio Effects on Elastic Properties of Porous Network Materials
Load Transfer in Ni-CrC Composites Studied by Synchrotron X-ray Diffraction and X-ray Microtomography
Micro-scale Fracture Studies In Ferroelectric Barium Titanate Thin Films
Micro-tensile Experiments on Low-carbon Martensitic Stainless Steel Alloy S41500
Micromechanics, Kleindiek manipulators for increased flexibility
Micropillar Compression Testing of Proton Irradiated NiCr2 Alloy
Modeling of the Bending Behavior to study Nested-Cylinder Structure in Spicules
Monitoring Crystal-scale Evolution in Real-time using In-situ High Energy Diffraction Microscopy and Principal Component Analysis
Movement of charged dislocations in an inorganic compound under an electric field
Multiscale Scattering Modeling from Deforming Titanium Alloy Polycrystals
Nanoindentation pop-in analysis of oxidized Ni-based superalloys
Numerical examination of the Oliver-Pharr method for nanoindentation of shape memory alloys
Numerical modeling and advanced characterization techniques to study the influence of process-inherited local deformation on in-service behavior of an Inconel 718
On the deformation mechanisms of ductility enhanced Mg-X-Ca alloys at elevated temperatures
On the kink-band formation in true and brittle micas
Optically Pumped Magnetometer Measuring Fatigue-Induced Damage in Steel
Precision Strain Measurement During Additive Manufacturing
Stress-strain responses from spherical nanoindentation and micro-pillar compression experiments in Fe-3% Si: A comparative study
Tensile deformation of polycrystalline pure cobalt studied by in-situ high energy X-ray diffraction
The dynamic signatures of strain bursts in metals
The effect of heat treatment on full-field damage evolution in laser powder bed fusion-manufactured 316L stainless steel
Three-dimensional in-situ measurements of martensitic phase transformation across length scales using X-ray topotomography and dark-field X-ray microscopy
Toughening Mechanism in Cu-Graphene Nanolayered Composite
Transmission X-Ray Microscopy Reveals Role of Secondary Cracks in Hydrogen Embrittlement
Understanding AM 316L steel microstructure evolution due to post-process laser scanning: a thermo-mechanical modeling and in-situ laser-SEM study
Understanding the unique thermal and mechanical properties of nanotwinned Ni-Mo-W alloys
Variation in the Bulk Elasticity of Nanoporous Materials from Solid Structure Mechanical Properties
Wear of UNCD studied by in-situ TEM tribometry
What happens to a microstructure after solidification during metal additive manufacturing? – an experiment-modeling synergistic study


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