A5078803022- High Entropy Alloys Studies
- Wave and Wind Energy Systems
- Coastal and Marine Dynamics
- Additive Manufacturing Materials and Processes
- High-Temperature Coating Behaviors
- Fluid Dynamics Simulations and Interactions
- Fluid Dynamics and Vibration Analysis
Powerchina Huadong Engineering Corporation (China)
2024
PowerChina (China)
2024
Jiangsu University of Science and Technology
2015-2023
The microstructures of high entropy alloys the system CoCrCuFe x Ni and CoCrCuFeNi (where indicates molar ratio, which, where not specified, is 1) have been investigated. Many Cu rich spheres were evident in microstructure 0.5 alloys, which that liquid phase separation had occurred before solidification. During separation, original liquids separated into two liquids: depleted. In contrast, other ( = 1.0, 1.5 2.0), typical dendritic interdendritic structures are obtained. and/or Cr...
Large-scale spatial configurations combining Wave Energy Converters (WECs) and coastal attenuating-wave facilities have the potential to exploit marine renewable energy sustainably. In this study, an integrated concept of multiple Oscillating Water Columns (OWCs) a very long floating breakwater is introduced. Associated extraction, gap resonance hydroelastic interaction problems are examined. A coupled numerical simulation methodology consisting Finite Volume Method (FVM)based solver Element...
Under the influence of waves and ocean currents, mesh panels trash nets at nuclear power plants exhibit a curved shape. The combined action currents creates Doppler effect that significantly influences hydrodynamic response these nets. This paper used OpenFOAM to establish porous media macroscopic computational fluid dynamics model for analyzing forces on Wave–current conditions were simulated by introducing uniform current in direction wave propagation. Forces under wave–current analyzed...
With the increasing titanium, volume fraction of face-centred cubic-structured dendrites decreased, and ordered B2 phase, σ, Laves phase appeared in CoCrCu 0.5 FeNiTi x alloy when > 0.5. increase Ti content, Δ S mix , H valence electron concentration (VEC), Λ (=Δ / δ 2 ) alloys while atomic size difference ( δ) electronegativity (Δ χ) increased. Topologically close-packed (TCP) structures are favoured 14.53 J K −1 mol . TCP phases can be found 5.05 χ ≥ 0.124. Simple solid solution is VEC...