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Meeting

2020 TMS Annual Meeting & Exhibition

Symposium

High Entropy Alloys VIII

Presentation Title

Microstructure and Mechanical Properties of Multi-phase CrMnFeCoNiAl0.75 High Entropy Alloy at Intermediate Temperature

Author(s)

Lijing Lin, Zhihong Zhong, Peter K Liaw

On-Site Speaker (Planned)

Lijing Lin

Abstract Scope

A multi-phase high-entropy alloy CrMnFeCoNiAl_0.75 was found to be composed of the face-centered-cubic (FCC) ,body-centered-cubic (BCC) and cuboidal B2 structures, and exhibited the high strength and acceptable ductility both at room and elevated temperatures for structural applications. The alloy had a high compression yield strength of 1.194 GPa and limited plasticity of 2.72% at room temperature, while it showed a high yield strength and adequate plasticity at elevated temperatures up to 500 ℃, the value of which was 1.070 GPa and 15.30 %, respectively. The excellent mechanical properties of the CrMnFeCoNiAl_0.75 alloy were attributed to a superalloy-like microstructure, which was characterized by cuboidal B2 precipitates coherently embedded in the BCC channel. Further increase in temperature resulted in pronounced softening.

Proceedings Inclusion?

Planned: Supplemental Proceedings volume; Planned: Supplemental Proceedings volume

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

Ab Initio Phase Stabilities of High Entropy and Chemically Complex Alloys

Atomistic Modeling of the Structures of High Entropy Alloy Nanoparticles from Carbothermal Shock Synthesis

Atomistic Simulations of Dislocations and Deformation in FCC Ni-based Binary Concentrated Alloys

Atomistic Simulations of the fcc-to-hcp Phase Transformation in the Equiatomic CoCrFeMnNi Alloy under High Compression

Characteristics of Edge Dislocations and their Glide in FCC NiCoFe and NiCoFeCu Equiatomic Solid Solution Alloys

Combinatorial Exploration of High Entropy Alloys

Comparison of High-throughput Experimental Results with Thermodynamic Calculations for more than 2000 HEAs

Compositional Design and Deformation Behavior in Ni-based Concentrated/HEA Alloys

Concurrent TWIP-TRIP, Short-range Order and Strain Localization in Single-crystal NiCrCo Medium Entropy Alloy Drives Exceptional Mechanical Behavior

Connecting Chemical and Structural Order in High Entropy Alloys

Corrosion, Wear, and Surface Degradation Behavior of High Entropy Alloys

Data-driven Design of High-entropy Alloys

Decoding Early Candidacy of High Entropy Alloys for Nuclear Application using the Advanced Test Reactor through Predictive Methods

Deformation-induced Crystalline to Amorphous Phase Transformation in High-entropy Alloys

Density Functional Theory Calculations of Generalized Stacking Fault Energies in Equal-molar MoNbTi Multi-principal Element Alloys

Design of HEAs Strengthened by L1₂ Precipitates using High Throughput Thermodynamic Calculations

Design of High-strength and Ductile High-entropy Steels

Designing Ductile Refractory High-entropy Alloys Guided by Natural Mixing

Development and Application of Phase-based Data Repository via CALPHAD Method in the HEA Discovery

Development of CuFeMnNi-based High Entropy Alloys Using CALPHAD Approach and Thermomechanical Processing

Dislocation Dynamics in a BCC Refractory Multi-Principal Element Alloy MoNbTi

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Electroplating Nanocrystalline Medium and High-entropy Alloys

Emerging Computational Tools for Exploring the Refractory Compositionally Complex Alloys

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First-principles Methods of Calculating Stacking Fault Energies in Refractory BCC High-entropy Alloys

Formability Enhancement of High-entropy Alloy by Manipulation of Stacking Fault Energy

High-Entropy Ceramics: Selected Recent Studies and Future Opportunities

High-throughput Experiments for Structural Materials – A Current Status

High Entropy Alloy Effect on Stability of Potential Permanent Magnets

High Entropy Alloy Nanomaterials as Filler Materials for Brazing Ni-based Superalloys

High Entropy Alloys for Magnetocaloric Effect Applications

High Temperature Phase Stability and Mechanical Behavior of Face-centered Cubic High Entropy Alloys

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Integrating Theory and Experiment in the Design of Multiprincipal Element Alloys

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J-105: Mechanical Properties and Deformation Behavior of NiTi-Based Low-, Medium- and High-Entropy Intermetallic Compounds at Different Temperatures

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J-117: Overcoming Strength-ductility Trade-off in Additively Manufactured 1%C-CoCrFeMnNi High-entropy Alloy Induced by Hierarchically Heterogeneous Microstructure

J-118: Oxidation Behavior of Al4Co3Cr25Cu10Fe25Ni33 at High Temperature

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J-120: Phase Field Dislocation Dynamics Modeling of Refractory High Entropy Alloys

J-121: Phase Stability and Defect Properties of fcc FeCrMnNi HEAs

J-122: Phase Stability and Microstructural Evolution in Refractory High Entropy Superalloy

J-124: Physical Origin of Mechanical Behavior of NbTaTiV(Zr) High Entropy Alloy from First-principles Simulations

J-126: Significance of Grain Refinement in HfNbTiZr and CoCrFeNi High-entropy Alloys

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J-128: Stress Corrosion Cracking Mechanism of FCC Type High-entropy Alloys Structural Materials under High Temperature Pressurized Water Environment by Molecular Dynamics Simulation

J-129: Structural Evolution and Thermal Stability of Nanocrystalline High Entropy Alloy through Cryomilling

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J-131: Temperature Dependence of Structural and Magnetic Properties of Single-crystal CoCrFeNiMn-based Alloys

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J-22: Atomic Scale Modeling of Hydrogen Accommodation and Transport in BCC Refractory High Entropy Alloys

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J-77: Atom Probe Tomography Study of a Fe25Ni25Co25Ti15Al10 High-entropy Alloy

J-78: Atomic Diffusion in Melts of Refractory HEAs

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