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Meeting 2019 TMS Annual Meeting & Exhibition
Symposium Thermo-mechanical Response of Materials Investigated through Novel In-situ Experiments and Modeling
Sponsorship TMS Functional Materials Division
TMS Structural Materials Division
TMS: Advanced Characterization, Testing, and Simulation Committee
TMS: Thin Films and Interfaces Committee
Organizer(s) Saurabh Puri, Microstructure Engineering
Robert Wheeler, Microtesting Solutions LLC
Dongchan Jang, KAIST
Amit Pandey, Lockheed Martin Space
Josh Kacher, Georgia Institute of Technology
Dhriti Bhattacharyya, Australian Nuclear Science and Technology Organization
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 thermo-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 for nanomechanical studies, 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 conditions.
• Imaging and analytical 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.

Abstracts Due 07/16/2018
Proceedings Plan Planned: Supplemental Proceedings volume

A Multi-scale In Situ Approach to Understanding the Collective Deformation of Ferroelastic Polycrystalline Ceramics
A Novel MEMS Stage for In Situ Thermomechanical Testing of Materials under Bending
An Overview of the Research on TiAl Alloys: From Fundamental to Applications
Combining Raman Spectroscopy and Nanoindentation to Probe Temperature and Pressure Induced Structural Changes
Creep-fracture in OFHC Copper Evaluated using In Situ HR-ESBSD
Curling in Bi-component Applications
Deformation-Induced Martensitic Transformation in 304 Stainless Steel using In Situ TEM characterization: Effect of Ion Irradiation
Deformation Mechanism Maps for Submicron Aluminum at Elevated Temperatures
Diffuse Interface Approach to Modeling Crystal Plasticity with Accommodation of Grain Boundary Sliding
Digital Volume Correlation for Volumetric Characterization of Material Changes
Direct Visualization of Kirkendall Voids at Cu-Au Interfaces from In-situ TEM Heating Studies
Dislocation Dynamics Simulation for Predicting Precipitation Strengthening in Mg-Nd Alloys
Dislocation Pile-ups at β1 Precipitate Interfaces in Mg-rare Earth (RE) Alloys
Elastic Strains from Laue XRay Microdiffraction on Bi-crystal
Evolving Methods in the Measurement of Micromechanical Properties of Materials
Ex Situ and In Situ Cyclic Crack Propagation in Microscale Tests on Pt-Ni-Al Bond Coats
Experimental and Numerical Analyses of the Uniaxial Shakedown Behavior of 316 Stainless Steel
Four-Dimensional (4D) Characterization of Thermal Cycling Damage in Sintered Nano-Silver Solder by X-ray Microtomography
Imaging Short Range Order in Ti-6Al with TEM/STEM Techniques
In Situ Digital Image Correlation and Acoustic Emission Monitoring of Mechanically and Thermally Loaded Ceramic Materials
In Situ Digital Image Correlation and Infrared Thermal Measurements During Shear Deformation of Tantalum
In Situ Instrumentation and Microfabrication for Mechanical Testing of Thin Films at Elevated Temperatures
In Situ Micro-mechanical Characterization and Multiscale Modeling of Thermo-mechanical Properties of Micro-architectured Tungsten Coating
In Situ Studies of a Micron-scale Impact-induced Thermo-mechanical Failure
In Situ Synchrotron X-ray Microtomography of Stress Corrosion Cracking in 304 SS under Humid Air Environment
Measurement of the Thermal Expansion of Ti-7Al Using High Energy X-ray Diffraction Microscopy
Measuring Elastic and Plastic Anisotropies of a Metastable β-titanium Alloy, Timetal 18, by In Situ High Energy X-ray Diffraction (HEXRD)
Mechanical Behavior of Austenitic Alloy 709: Synchrotron X-Ray vs. Neutron Diffraction Characterization
Mechanical Behavior of Nanocrystalline NiTi Films with Highly Controlled Microstructures – Ex Situ and In Situ TEM Experiments
Mechanical Properties Evaluation of Irradiated Duplex Stainless Steel by Nano Indentation and In Situ Nano Pillar Compression Test
Mechanical Properties of Mg-LPSO Alloys during Hot Deformation
Mesoscale Simulation of Microstructure Dependent Facture in Hydrided Zircaloy Structure
Modeling the Contribution of Deformation Twinning to the Temperature and Rate Dependent Strength of Tantalum
Modelling of Grain Boundary Segregation and Precipitation in Multi-component Al Alloys Subjected to Heat Treatment
Monitoring Fabrication and Operation of Ceramic Materials by the Acoustic Emission Technique
Nano-mechanics-based Characterization of Radiation-tolerance for Reduced-activation Ferritic/Martensitic (RAFM) Steel
Nanoscale Plastic Wear of Olivine Investigated by In Situ TEM
Operando STEM Guide Catalyst Regeneration Method Development
Revealing the Role of Microstructure Architecture on Strength and Ductility of Ni Microwires by In Situ Synchrotron X-Ray Diffraction
The Connection Between Ideal Strengths and Deformation Mechanisms in BCC Refractory Metals
Thermo-mechanical Damage Evolution of Energetic Materials in Elevated Temperature Environments
Use of Raman Spectroscopy to Study Plastic Deformation in Silicate Glasses
In-situ Investigation of Thermo-mechanical Properties of a Free-standing Boron Nitride Nanotube Buckypaper

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