The composite coatings were formed by plasma cladding Fe-based alloy(Fe-Cr-B-Si) added 10% , 30% and 50% (mass fraction) nickel-clad WC respectively on Q235 steel. The microstructure evolution and microhardness of...The composite coatings were formed by plasma cladding Fe-based alloy(Fe-Cr-B-Si) added 10% , 30% and 50% (mass fraction) nickel-clad WC respectively on Q235 steel. The microstructure evolution and microhardness of the coatings were investigated. The WC particles were completely melted into the composites coating when 10% WC was added, however, when 30% or 50% WC was added, only part of them could be melted in the coatings. Two significantly different solidification microstructures were found. When WC content is 10% or 30%, the microstructure is mainly dendrites and inter- dendrite eutectics, while when the content of WC reaches 50% , it becomes remained WC particles, Fe3 W3 C carbide faceted dendrite and eutectics hypereutectic structure. The microhardness of these three coatings reaches 560- 600, 650 -810 and 920 - 1 100 HVo2 respectively, and is improved with the increasing of WC content.展开更多
The formability and thermal stability of Ce62Al15Fe8Co15 bulk metallic glass (BMG) are studied by x-ray diffraction (XRD) and differential scanning calorimetry. The critical diameter of Ce62Al15Fe8Co15 BMG predict...The formability and thermal stability of Ce62Al15Fe8Co15 bulk metallic glass (BMG) are studied by x-ray diffraction (XRD) and differential scanning calorimetry. The critical diameter of Ce62Al15Fe8Co15 BMG predicted by the parameter γ is about 3.1 mm, which is roughly in agreement with the XRD results. Stability of the BMG is investigated by means of continuous crystallization diagrams obtained from the extension of the Kissinger and Vogel-Fulcher-Tammann (VFT) equations comparatively. It is found that the dependence of crystallization temperature of the BMG on heating rates follows a nonlinear relationship rather than Kissinger and Lasoka's linear fittings. The thermal stability of the BMG is investigated by the VFT equation.展开更多
文摘The composite coatings were formed by plasma cladding Fe-based alloy(Fe-Cr-B-Si) added 10% , 30% and 50% (mass fraction) nickel-clad WC respectively on Q235 steel. The microstructure evolution and microhardness of the coatings were investigated. The WC particles were completely melted into the composites coating when 10% WC was added, however, when 30% or 50% WC was added, only part of them could be melted in the coatings. Two significantly different solidification microstructures were found. When WC content is 10% or 30%, the microstructure is mainly dendrites and inter- dendrite eutectics, while when the content of WC reaches 50% , it becomes remained WC particles, Fe3 W3 C carbide faceted dendrite and eutectics hypereutectic structure. The microhardness of these three coatings reaches 560- 600, 650 -810 and 920 - 1 100 HVo2 respectively, and is improved with the increasing of WC content.
文摘The formability and thermal stability of Ce62Al15Fe8Co15 bulk metallic glass (BMG) are studied by x-ray diffraction (XRD) and differential scanning calorimetry. The critical diameter of Ce62Al15Fe8Co15 BMG predicted by the parameter γ is about 3.1 mm, which is roughly in agreement with the XRD results. Stability of the BMG is investigated by means of continuous crystallization diagrams obtained from the extension of the Kissinger and Vogel-Fulcher-Tammann (VFT) equations comparatively. It is found that the dependence of crystallization temperature of the BMG on heating rates follows a nonlinear relationship rather than Kissinger and Lasoka's linear fittings. The thermal stability of the BMG is investigated by the VFT equation.
