21 research outputs found
Ferromagnetic Co-Fe-Zr-B amorphous alloys with glass transition and good high-frequency permeability
Welding characteristics and effect of gap length on 2000 series aluminum alloy sheet lap joints welded by magnetic pulse welding
Fabrication of 2000 Series Aluminum Alloy Lap Joint Sheets by Magnetic Pulse Welding and Their Interfacial Microstructure Observations
Welding Characteristics and Effect of Gap Length on 2000 Series Aluminum Alloy Sheet Lap Joints Welded by Magnetic Pulse Welding
Correction to “Preferential Photooxidation of CO in Hydrogen across the Crystalline Face Boundary over Spheroidal ZnO Promoted by Cu Ions”
One-Dimensional Anti-Phase Structures Based on an Mg<SUB>12</SUB>Ce (Mn<SUB>12</SUB>Th-Type) Structure in an Mg<SUB>91</SUB>Ce<SUB>6</SUB>Zn<SUB>3</SUB> Alloy, Studied by High-Resolution Transmission Electron Microscopy and High-Angle Annular Detector Dark-Field Scanning Transmission Electron Microscopy
Preparation of Metal Coatings on Steel Balls Using Mechanical Coating Technique and Its Process Analysis
We successfully applied mechanical coating technique to prepare Ti coatings on the substrates of steel balls and stainless steel balls. The prepared samples were analyzed by X-ray diffraction (XRD) and scanning electron microscopy (SEM). The weight increase of the ball substrates and the average thickness of Ti coatings were also monitored. The results show that continuous Ti coatings were prepared at different revolution speeds after different durations. Higher revolution speed can accelerate the formation of continuous Ti coatings. Substrate hardness also markedly affected the formation of Ti coatings. Specifically, the substance with lower surface hardness was more suitable as the substrate on which to prepare Ti coatings. The substrate material plays a key role in the formation of Ti coatings. Specifically, Ti coatings formed more easily on metal/alloy balls than ceramic balls. The above conclusion can also be applied to other metal or alloy coatings on metal/alloy and ceramic substrates