整体叶轮的数控加工技术及应用研究
摘要
伴随市场需求的改变,也开始有变化出现在整体叶轮形状中。在逐渐提升了叶轮制造标准后,在某种程度上加大了整体叶轮加工难度。为了将整体叶轮加工效率提升,要求技术人员精准掌握加工技术以及应用要点,通过数控技术,加工整体叶轮,进而把符合市场需求的整体叶轮产品生产出来。
With the change of market demand, there are also changes in the shape of the overall impeller. After gradually raising the manufacturing standard of impeller, the machining difficulty of integral impeller is increased to some extent. In order to improve the machining efficiency of the integral impeller, technicians are required to accurately master the machining technology and application essentials, through CNC technology, machining the integral impeller, and then produce the integral impeller products in line with the market demand.
With the change of market demand, there are also changes in the shape of the overall impeller. After gradually raising the manufacturing standard of impeller, the machining difficulty of integral impeller is increased to some extent. In order to improve the machining efficiency of the integral impeller, technicians are required to accurately master the machining technology and application essentials, through CNC technology, machining the integral impeller, and then produce the integral impeller products in line with the market demand.
引文
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[3]石佩斐,郭鹤.复杂整体叶轮数控加工的关键技术[J].工艺与装备,2015(07):98-99.
[4]修春松,安鲁陵,戚家亮.整体叶轮鼓形刀五坐标数控加工刀位轨迹生成[J].机械制造与自动化,2011(07):76-77.
[5]刘辰,徐家文,赵建社,等.三元流闭式叶轮组合电加工技术研究Ⅲ———数控电火花精加工关键技术[J].航空学报,2010(08):87-88.