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Meeting 2024 TMS Annual Meeting & Exhibition
Symposium Dynamic Behavior of Materials X
Presentation Title Purity Effects on Shock Driven Phase Transformations in Titanium
Author(s) David R. Jones, Jesse G Callanan, Daniel T Martinez, George T Gray, Saryu J Fensin
On-Site Speaker (Planned) David R. Jones
Abstract Scope Titanium is known to undergo a pressure-driven phase transformation from the ambient alpha phase (hexagonal close packed) to omega (simple hexagonal). There is a large scatter in the published literature for the stress required to initiate this transformation, especially under shock loading. Previous works have hypothesized that oxygen content is the dominant influence in the transition stress, and that it can block it entirely at high enough levels. Here, we study the effect of oxygen content using plate-impact shock experiments. Traditional free-surface velocity measurements are coupled with in-situ x-ray diffraction to directly measure the material phase under loading. We see that although the stress required for transformation increases with oxygen content, it still occurs. However, as the oxygen changes the equation-of-state, the phase transition signature becomes very subtle and can easily be overdriven, which without the diffraction data can lead to the conclusion of no transition occurring.
Proceedings Inclusion? Planned:
Keywords Titanium, Phase Transformations, Mechanical Properties

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Coupled Twinning and Damage Model Based on the Dislocation Kinetics for Polycrystalline Beryllium Under Shock Loading Conditions
A Porous Crystal Plasticity Finite Element Model for Void Evolution in Aluminum Alloys under Multiaxial Loading
Characterization, Mechanical Behavior, and Failure of Mo-based TZM Alloy
Concurrent Atomistic-Continuum Study of Crack Propagation vs. Dislocation Emission
D-28: Assessing Interface Effects in Shock-Compressed Crystals with Time-resolved Raman Spectroscopy
D-30: Modeling the Evolution of Precipitates Assisted by Pipe Diffusion of Dislocations
Designing Additively Manufactured Lattice Structures to Withstand Uniaxial Short Temporal Width Impulsive Loads Without Yielding
Development of an ML Interatomic Potential for SiC for Extreme Environments
Dislocation Generation in Diamond under Extreme Loading
Dynamic Fracture Response of Cantor-derived Medium Entropy Alloys
Effects of Controlled Porosity on Shock Mitigation in Additively Manufactured 316L Stainless Steel
Effects of Local Length Scales on Estimation of Void Fraction Distribution from X-ray Tomography of Spall Damage in Metallic Samples
Effects of Micro- and Macro-scale Heterogeneities on Spall Failure of Materials
Evaluation of Compound Refractive Lenses during Hypervelocity Impact Experiments
Evaluation of Microstructural Heterogeneity in Cast-cured Explosive Composites
High-strain Rate Deformation Mechanisms in High Entropy Alloys as a Function of Tri-axial Load
Hybrid EAM-RANN Potential for Binary Ti-Al Alloy
Identification of Primary Variables in Multi-grain Simulations for Stress Conditions Leading to Void Nucleation
Identifying the Precursors of Ductile Failure via Void Nucleation and Coalescence
In-situ Full-field Imaging of Hypervelocity Impacts and Shock Compression Deformations Using Time-resolved Raman Spectroscopy
In-situ X-ray Diffraction of Nanolamellar High-entropy Alloys under Shock Compression and Release
Inertial Effects on Dynamic Indentation of Materials
Laser Shock Compression of Diamond, Olivine, and Perovskite
Limited Neural Networks for the Prediction of Shockwave Initiation of Energetic Materials
Local Deformation and Recrystallization during High-velocity Impact of Metallic Particles
Micromechanical Testing of Metals at High Strain Rates and Temperatures
Microstructure Effects on Dynamic Hardness in High Velocity Microparticle Impacts
Modeling Grain Boundary Mediated Plasticity with Massively Parallel Atomistic Simulations
Modeling Shear Fracture at High Strain Rates: Numerical Simulation of Shock-driven Extrusion Test
Multiscale Models for the Mechanical Response of fcc Alloys Under High-strain Rates and Complex Triaxial Loads
Numerical Analysis of Spalling at Micro and Continuum Scales
Numerical Simulation of Shear Band Formation and Fracture in Collapsing Thick-walled Cylinder Experiment
On Critical Thresholds for Dynamic Response of Matter
Pores Collapse and Spall Fracture: A Direct Observation Using Fast X-ray Imaging
Purity Effects on Shock Driven Phase Transformations in Titanium
Rapid Quantification of Dynamic and Spall Strength of Metals Across Strain Rates
Shock Compression of Nanocrystalline Boron Carbide from Deep Learning Molecular Dynamics Simulations
Shock Wave Propagation in Medium and High Entropy Alloys through Moving Window Concurrent Atomistic Continuum Method
Simulating Plastic Flow Near Grain Boundaries with Dislocation Dynamics
Spatial Description of Dislocation Nucleation in the Shock Response of Single-crystalline Aluminum
Strain Rate Effects on Shear-band Behavior in Al-Sm System
The Influence of Microstructure on the Dynamic Shock Response of 1045 Steel
Thermo-mechanical Representation of Adiabatic Shear Banding

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