China
Central South University - State Key Laboratory of Powder Metallurgy
Ultra-high-temperature ceramics, Laser melting, Ablation resistance, Oxidation
Molten Salt, Thermo-reaction deposition and diffusion (TRD), Graphite, Tantalum Carbide (TaC)
Medium-entropy alloys, Carbides, Specific wear rate, Abrasive wear
ultra-high temperature ceramics (UHTCs), (Hf, Ti)C, static oxidation behavior, Hf-based carbides, oxidation mechanism
C/C-SiC-ZrC-Cu composites, Reactive melt infiltration, microstructure, Ablation resistance
C/C composite, Additive manufacturing, Direct ink writing, Dual curing, Chemical Vapor Infiltration
High-entropy carbide, Non-stoichiometric ceramics, Tribological properties, Wear mechanism
Medium-entropy alloys, Carbides, Wear Rate, Adhesive wear
Keywords: C/C-SiC-ZrC-Cu composites, Reactive melt infiltration, Zr-Cu infiltration materials, Ablation resistance
Polymer-derived ceramics, UHTCs, High entropy ceramics, Ablation, Mechanical properties
Ceramic-metal matrix composites, C/C-ZrC-W-ZrB2-Cu, Ablation resistance, Mechanical property, thermophysical properties
Reactive melt infiltration, C/C-UHTCs, SiC interlayer, Mechanical properties, ablation resistance
Surface oxidation, Fe-based metallic glass, Fenton-like reactions, azo dye degradation
Si-B-Mo-Y, modification, SiC/SiC composites, water-oxygen environment, oxidation kinetics
Joule heating, C/C-SiC composites, Ceramic matrix composites, Polymer impregnation and pyrolysis, Flexural strength, Ablation behavior.
Reactive melt infiltration, SiC interlayer, Microstructure evolution, Flexural strength, Ceramic matrix composites
Multi-component transition metal carbides, High-temperature mechanical properties, Ablation resistance, reactive melt infiltration
C/C-(Zr, Hf, Ti)C composites, Reactive melt infiltration, Ablation, Protective oxide layer
Carbon-carbon composites (C/C) [A], High-temperature properties [B], Thermal properties [B], Mechanical testing [D]
Thermal barrier coatings, Dysprosia stabilized zirconia, CMAS, Thermochemical Interaction, Grain boundary corrosion
Second phase strengthening, Atomized alloy powders, Medium-entropy alloys, Carbides
Dysprosia stabilized zirconia, CMAS, Thermochemical Interaction, Grain boundary corrosion, Thermal/Environmental barrier coatings
Transition metal carbides, Structural optimization, Residual thermal stress, Infiltration mechanism