Yong Shao
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View article: Surface integrity and service performance in ultrasonic-assisted grinding: A review
Surface integrity and service performance in ultrasonic-assisted grinding: A review Open
Ultrasonic-assisted machining technology, with its high-frequency dynamic cutting characteristics, can effectively suppress tool wear, enhance heat dissipation in the contact zone, and reduce material damage, thereby improving surface qual…
View article: Investigating the Effects of Plasma-Sintered WC-17Co Morphology and Content Changes on the Properties of Laser-Melted Fe-Based Coatings
Investigating the Effects of Plasma-Sintered WC-17Co Morphology and Content Changes on the Properties of Laser-Melted Fe-Based Coatings Open
In order to investigate the influence of the shape of the powder raw material on the coating properties, this paper investigates the plasma-sintered WC particles added to Fe-based powder to prepare coatings, and characterization methods su…
View article: Effects of various proportions TiB2p-TiCp reinforced Al–Cu–Mg composites in high-temperature mechanical properties and sliding wear behaviors
Effects of various proportions TiB2p-TiCp reinforced Al–Cu–Mg composites in high-temperature mechanical properties and sliding wear behaviors Open
Synergistic reinforcement of dual-phase particles with different sizes was always considered superior to single-phase reinforcement in composites, but there were few studies to investigate the role of each part in enhancing properties. In …
View article: Toward Hard and Wear-Resistant Zr-N-Si Coatings Via a Compositional Gradient Multilayer Structure
Toward Hard and Wear-Resistant Zr-N-Si Coatings Via a Compositional Gradient Multilayer Structure Open
View article: Toward Hard and Wear-Resistant Zr-N-Si Coating Via an Amorphous-to-Crystalline Gradient Multilayer Structure
Toward Hard and Wear-Resistant Zr-N-Si Coating Via an Amorphous-to-Crystalline Gradient Multilayer Structure Open
View article: Toward Hard and Wear-Resistant Zr-N-Si Coating Via an Amorphous-to-Crystalline Gradient Multilayer Structure
Toward Hard and Wear-Resistant Zr-N-Si Coating Via an Amorphous-to-Crystalline Gradient Multilayer Structure Open
View article: Effect of Synergistic Microalloying on the Microstructural Optimization of Mo/Nial Alloy with Excellent Mechanical Properties Under Rapid Non-Equilibrium Solidification
Effect of Synergistic Microalloying on the Microstructural Optimization of Mo/Nial Alloy with Excellent Mechanical Properties Under Rapid Non-Equilibrium Solidification Open
View article: Numerical modeling and failure evolution of microstructure-based in-situ TiB2 and TiC+TiB2 reinforced Cu matrix composites
Numerical modeling and failure evolution of microstructure-based in-situ TiB2 and TiC+TiB2 reinforced Cu matrix composites Open
The optimal design of microstructure is the key to further improve the properties of particle reinforced metal matrix composites. In this study, in-situ TiB2 and TiC + TiB2 reinforced Cu matrix composites are used as examples to develop th…
View article: Toward Hard and Corrosion Resistant Aln/Si/Al Color Coating Via Sin/Alsin/Aln Gradient Interlayering
Toward Hard and Corrosion Resistant Aln/Si/Al Color Coating Via Sin/Alsin/Aln Gradient Interlayering Open
View article: Enhancement of Hardness and Corrosion Resistance of Al-Si-N Multilayer Coating Via Sin/Alsin/Aln Compositional Gradient Interlayer
Enhancement of Hardness and Corrosion Resistance of Al-Si-N Multilayer Coating Via Sin/Alsin/Aln Compositional Gradient Interlayer Open
View article: The evolution of microstructure and electrical performance in doped Mn-Co and Cu-Mn oxide layers with the extended oxidation time
The evolution of microstructure and electrical performance in doped Mn-Co and Cu-Mn oxide layers with the extended oxidation time Open
View article: Strengthening mechanism of TiC/Al composites using Al-Ti-C/CNTs with doping alloying elements (Mg, Zn and Cu)
Strengthening mechanism of TiC/Al composites using Al-Ti-C/CNTs with doping alloying elements (Mg, Zn and Cu) Open
View article: Structure and properties of composite Ni–Co–Mn coatings on metal interconnects by electrodeposition
Structure and properties of composite Ni–Co–Mn coatings on metal interconnects by electrodeposition Open
View article: A Comprehensive Study on Fitness Approximation Techniques in Shape Optimization of Aerofoil Forging Preform Tools
A Comprehensive Study on Fitness Approximation Techniques in Shape Optimization of Aerofoil Forging Preform Tools Open
In the process of complex engineering designs or optimizations, a large number of physical experiments or numerical simulations are required to evaluate certain performance qualities before a satisfactory result can be obtained. In both ca…
View article: Impedance Spectra Characteristics of Fe-Cr Alloys in a Solid K2SO4-KCl Mixture at 600°C and 650°C
Impedance Spectra Characteristics of Fe-Cr Alloys in a Solid K2SO4-KCl Mixture at 600°C and 650°C Open
View article: Oxidation Characteristics and Electrical Properties of Doped Mn-Co Spinel Reaction Layer for Solid Oxide Fuel Cell Metal Interconnects
Oxidation Characteristics and Electrical Properties of Doped Mn-Co Spinel Reaction Layer for Solid Oxide Fuel Cell Metal Interconnects Open
To prevent Cr poisoning of the cathode and to retain high conductivity during solid oxide fuel cell (SOFC) operation, Cu or La doped Co-Mn coatings on a metallic interconnect is deposited and followed by oxidation at 750 °C. Microstructure…
View article: Impedance Spectra Characteristics of Dy-doped Fe-20Cr Alloys in the Presence of Solid K2SO4-KCl Mixture at 600°C in Air
Impedance Spectra Characteristics of Dy-doped Fe-20Cr Alloys in the Presence of Solid K2SO4-KCl Mixture at 600°C in Air Open
View article: Thermal Growth Cu1.2Mn1.8O4 Spinel Coatings on Metal Interconnects for Solid Oxide Fuel Cell Applications
Thermal Growth Cu1.2Mn1.8O4 Spinel Coatings on Metal Interconnects for Solid Oxide Fuel Cell Applications Open
A novel cobalt-free Cu1.2Mn1.8O4 spinel coating is prepared and evaluated for the metal interconnect of solid oxide fuel cell. Mn-35Cu and Co-35Mn alloy coatings are deposited on 430 SS substrate and then in-situ oxidized in air at 750 °C …