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Influence of High-Speed Milling Process on Mechanical and Microstructural Properties of Ultrafine Grained Profiles Produced by Linear Flow Splitting 被引量:2

Influence of High-Speed Milling Process on Mechanical and Microstructural Properties of Ultrafine Grained Profiles Produced by Linear Flow Splitting
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摘要 The effects of milling parameters on the surface quality,microstructures and mechanical properties of machined parts with ultrafine grained(UFG)gradient microstructures are investigated.The effects of the cutting speed,feed per tooth,cutting tool geometry and cooling strategy are demonstrated.It has been found that the surface quality of machined grooves can be improved by increasing the cutting speed.However,cryogenic cooling with CO_2 exhibits no significant improvement of surface quality.Microstructure and hardness investigations revealed similar microstructure and hardness variations near the machined groove walls for both utilized tool geometries.Therefore,cryogenic cooling can decrease more far-ranging hardness reductions due to high process temperatures,especially in the UFG regions of the machined parts,whilst it cannot prevent the drop in hardness directly at the groove walls. The effects of milling parameters on the surface quality, microstructures and mechanical properties of machined parts with ultrafine grained (UFG) gradient microstructures are investigated. The effects of the cutting speed, feed per tooth, cutting tool geometry/and cooling strategy are demonstrated. It has been found that the surface quality of machined grooves can be improved by increasing the cutting speed. However, cryogenic cooling with CO2 exhibits no significant improvement of surface quality. Microstructure and hardness investigations revealed similar microstructure and hardness variations near the machined groove walls for both utilized tool geometries. Therefore, cryogenic cooling can decrease more far-ranging hardness reductions due to high process temperatures, especially in the UFG regions of the machined parts, whilst it cannot prevent the drop in hardness directly at the groove walls.
出处 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI CSCD 2017年第4期349-356,共8页 南京航空航天大学学报(英文版)
基金 supported by the German Research Foundation(DFG) the DFG for funding the subproject B3 and C5 of the Collaborative Research Center 666 "Integral sheet metal design with higher order bifurcations-Development,Production,Evaluation″
关键词 high-speed milling ultrafine grained microstructure linear flow splitting HARDNESS high-speed milling ultrafine grained microstructure linear flow splitting hardness
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