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Meeting MS&T22: Materials Science & Technology
Symposium Integration between Modeling and Experiments for Crystalline Metals: From Atomistic to Macroscopic Scales IV
Presentation Title Multi-scale Characterization of Monotonic and Cyclic Properties of Ultra-high Strength CrCoNi Medium-entropy Alloy with Heterogeneous Partially Recrystallized Microstructure
Author(s) Milan Heczko, Veronika Mazanova, Connor E Slone, Mulaine Shih, Tomas Kruml, Maryam Ghazisaeidi, Easo P. George, Jaroslav Polak, Michael J Mills
On-Site Speaker (Planned) Milan Heczko
Abstract Scope The effect of tunable partially recrystallized (PRX) heterostructures on the monotonic and cyclic plasticity and overall performance of equiatomic CrCoNi was investigated. After specific processing steps of cold-rolling and heat-treatment the alloy was subjected to monotonic and strain-controlled cyclic tests at room temperature. Fatigue hardening/softening curves, cyclic stress-strain curves and fatigue life curves were evaluated. The evolution of the internal critical stresses and the effective saturated stress during cyclic loading was analyzed using a generalized statistical theory of the hysteresis loop. The deformation mechanisms and substructure evolution was studied by multi-scale electron microscopy based characterization supported by atomistic modeling and correlated with the mechanical properties. Key performance aspects associated with the gradient heterogeneous microstructure were identified. It is revealed that CrCoNi alloy with PRX microstructure exhibits ultra-high monotonic and cyclic strength and extraordinary fracture toughness while preserving good ductility and resistance to cyclic plastic deformation.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Blessing in Disguise: Irradiation Damage Helps Slow Down Alloy Corrosion Rate via Oxide Space Charge Compensation Effects
A Grain Boundary Dislocation-density-based Crystal Plasticity Model for FCC Nanocrystalline Metals
A Numerical Study on How Surfaces Bias Relative Slip Family Activity
Alloying Design and Deep Learning Applications for Concentrated and High-entropy-Driven Ni-based Superalloys
Atomistic Modeling of a Nano-precipitate Strengthened Alloy
Atomistic Modeling of Twin Size Effect on the Localization of Cyclic Strain and Fatigue Crack Initiation in CrCoNi Medium-entropy Alloy
Calibration, Validation, and Application of a Digital Twin for a Standard End-chilled Plate Casting
Combinatorial Synthesis and High-throughput Characterization for Alloy Systems
Concurrent Atomistic-continuum Simulation of the Interplay between Dislocations, Phase Transformation, Twinning, and Reverse Phase Transformation in Plastically Deformed Materials
Continuum Dislocation Dynamics-based Full Field Crystal Plasticity Modeling for Characterizing Dislocation Distribution and Boundary Transmission in Polycrystalline Materials
Crystal Plasticity Modeling of Ultrasonic Softening Effect Considering Anisotropy in the Softening of Slip Systems
Defects and the Electron Beam Interaction Volume in Electron Back-scattered Diffraction
Deformation Mechanisms of Hexagonal Close-packed Materials: Modeling and Experimentation
Designing Stable θ'/L12 Co-precipitates in Cast and Additively Manufactured Al-Cu-Mn-Zr Alloys
Direct Comparison of Microstructure-sensitive Fatigue Modeling Results to Situ High-energy X-ray Experiments
Evolution of Metastable Grain Boundaries and Their Tunability under Extreme Conditions
Examination of Computed Aluminum Grain Boundary Structures and Interface Energies that Span the 5D Space of Crystallographic Character
Experimental Data for Casting Process Simulation Validation
Extended Core Structure of Planar Defects and Localized Phase Transformation in Crystalline Solids
Hybrid Ab Initio-machine Learning Simulation of Dislocation-defect Interactions
In Situ Studies on Room Temperature Deformability of Nanolaminates and Nanocrystalline Intermetallics
Influence of the Cross Slip Based Dynamic Recovery during Plane Strain Compression of Aluminium
Integration of Experiments and Modeling in Polycrystalline Plasticity of Mg-Al Single Phase Alloys
Interactions between Defects and Omega Phase in Ti via Molecular Dynamics and Phase Field Simulations
Investigating Effects of Particles and Voids in Plastic Deformation of Al6061 Using Finite Element Simulations
Leveraging Electron Microscopy to Inform Ab Initio Calculation: Deducing Surface Chemistry and Annealing Conditions from Equilibrium Tungsten Nanoparticle Shapes in Scandate Cathodes
Mapping the Dislocation Density Around a SS316L Weld Using Synchrotron X-ray Diffraction to Validate Finite Element Method Plasticity Modeling
Modelling of Quenching of Low Alloy Steels
Molecular Dynamics Analysis and Optimization of Ultra High Temperature Ceramic (UHTC) Compositions for Propulsion
Monte Carlo Simulations for Synthetic Microstructure Generation of M23C6 Precipitation in 347H Stainless Steels
Motions in Cylindrical Grain Boundaries
Multi-scale and Multi-physical Model of Defect-driven Plasticity in Nanostructural Metals
Multi-scale Characterization of Monotonic and Cyclic Properties of Ultra-high Strength CrCoNi Medium-entropy Alloy with Heterogeneous Partially Recrystallized Microstructure
Multiscale Modeling of the Microstructural Dependence of Degradation Initiation in Al and Ti
Nanoscale Plasticity in Irradiated Inhomogeneous Alloys
New Insights into the Spatiotemporal Structure of Plastic Flow In hcp Materials by Combination of Advanced In Situ Techniques and Modeling
Predicting Yield Strength in β-NiAl + Cu + VC Triple Nano-precipitate Strengthened Austenitic Steel
Predictive Phase-field Modeling of Nucleation and Growth of β1 Precipitates during Aging of Mg-Nd Alloys
Prisms-plasticity: An Open Source Crystal Plasticity Finite Element Software
Propagation of Uncertainty in Molecular Dynamic Simulations of Polycrystalline Nickel
Role of Dislocations and Deformation Twinning on the High-pressure Phase Transformation in Zirconium
Slip Transmission and Voiding during Slip Band Intersections in Fe70Ni10Cr20 Stainless Steel
Tailoring the Properties of Multi-phase Titanium Through the Use of Correlative Microscopy and Machine Learning
Third Generation Thermodynamic Modelling of the Ga-Mn-Ni System
Unexpected Deformation-Induced Martensitic Transformations in Ni-Cr Alloy 625
Validation of Representative Volume Element (RVE) Finite Element Models of Dual Phase Steels Using SEM In-situ Tensile Tests and Digital Image Correlation (DIC)

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