The intermediate layer was prepared by nickel doped with WC particles electroplating.The parameters,including current density and temperature,were studied.The measured methods,which consisted of surface roughometer an...The intermediate layer was prepared by nickel doped with WC particles electroplating.The parameters,including current density and temperature,were studied.The measured methods,which consisted of surface roughometer and SEM,were used to character the roughness and micrograph.Based on the results,it was shown that the optimized parameters of the composite were as follows,temperature 65 ℃,current density 5 A/dm2 and pH 6.5.In the range of optimized parameters,the roughness Ra was from 4.5 to 6.7 μm.From the SEM micrograph,the particles on the surface were well distributed.The nickel content,which affected the binding force,was determined by the electroplating time.展开更多
The process of spray forming utilized to fabricate WC particle-reinforced high speed steel composites has been studied. In addition, microstructures and mechanical properties of M2 high speed steel and its composites ...The process of spray forming utilized to fabricate WC particle-reinforced high speed steel composites has been studied. In addition, microstructures and mechanical properties of M2 high speed steel and its composites made by spray forming have been analyzed. The results show that the primary carbides of high speed steel are of two types: MC and MbC. With the increase in flight distance, the morphology of the primary carbides varies from fine fish-bone-like to islandlike and both bending strength and hardness increase. With the increase in volume fraction of WC reinforcement particles,hardness of the composites increases considerably, but bending strength, however, appears to be a decreasing tendency.展开更多
The process of manufacturing high speed steel matrix composites reinforced by WC particles was studied. The changes in microstructures and mechanical properties of composites with WC particles were also investigated. ...The process of manufacturing high speed steel matrix composites reinforced by WC particles was studied. The changes in microstructures and mechanical properties of composites with WC particles were also investigated. The results show that increasing the deposition height can significantly enhance the bending strength and hardness of the alloy, and that the fishbone like carbide ledeburite structure gradually diminishes as the WC particles content increases. It was discovered that the hardness of the composites increases due to the increase of pointlike carbide ledeburite, accompanying the breaking of the fishbone like and the net like carbides. However, the bending strength deteriorates due to excessive WC particles increasing the brittle interfacial phase.展开更多
文摘The intermediate layer was prepared by nickel doped with WC particles electroplating.The parameters,including current density and temperature,were studied.The measured methods,which consisted of surface roughometer and SEM,were used to character the roughness and micrograph.Based on the results,it was shown that the optimized parameters of the composite were as follows,temperature 65 ℃,current density 5 A/dm2 and pH 6.5.In the range of optimized parameters,the roughness Ra was from 4.5 to 6.7 μm.From the SEM micrograph,the particles on the surface were well distributed.The nickel content,which affected the binding force,was determined by the electroplating time.
文摘The process of spray forming utilized to fabricate WC particle-reinforced high speed steel composites has been studied. In addition, microstructures and mechanical properties of M2 high speed steel and its composites made by spray forming have been analyzed. The results show that the primary carbides of high speed steel are of two types: MC and MbC. With the increase in flight distance, the morphology of the primary carbides varies from fine fish-bone-like to islandlike and both bending strength and hardness increase. With the increase in volume fraction of WC reinforcement particles,hardness of the composites increases considerably, but bending strength, however, appears to be a decreasing tendency.
文摘The process of manufacturing high speed steel matrix composites reinforced by WC particles was studied. The changes in microstructures and mechanical properties of composites with WC particles were also investigated. The results show that increasing the deposition height can significantly enhance the bending strength and hardness of the alloy, and that the fishbone like carbide ledeburite structure gradually diminishes as the WC particles content increases. It was discovered that the hardness of the composites increases due to the increase of pointlike carbide ledeburite, accompanying the breaking of the fishbone like and the net like carbides. However, the bending strength deteriorates due to excessive WC particles increasing the brittle interfacial phase.
