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Complex-shaped metal parts high efficiency sawing with diamond wire

刊名：	International Journal of Mechanical Sciences
作者：	Xu, Zhiteng（Huaqiao Univ） Cui, Changcai（Huaqiao Univ） Liao, Xinjiang（Huaqiao Univ） Wu, Min（Huaqiao Univ） Xue, Zhiping（Huaqiao Univ） Huang, Hui（Huaqiao Univ）
刊号：	780C0005
ISSN：	0020-7403
出版年：	2023
年卷期：	2023, vol.250
页码：	108306
总页数：	12
分类号：	TH111
关键词：	Wire saw；Complex shape metal；High efficiency roughing；Ruled surface；FINITE-ELEMENT-ANALYSIS；TOOL PATH GENERATION；CUTTING FORCE；SURFACE-ROUGHNESS；CATHODE DESIGN；SINGLE-CRYSTAL；BLISK-TUNNELS；WEDM；OPTIMIZATION；MODEL
参考中译：
语种：	eng
文摘：	Aiming at the problems of low machining efficiency and serious tool wear caused by the large removal of the complex-shaped metal parts, a method of high efficiency roughing for the complex-shaped metal parts using the diamond abrasive wire saw cutting technology was proposed. According to the machining characteristics of the wire saw, a ruled surface model was constructed based on the minimum area polygon envelope. To avoid the wire saw breakage caused by the sudden change of the control shaft motion during the cutting process, the least squares method was used to fit the polygon side slope between layers to obtain the smoothed ruled surface model. The effects of the smoothed ruled surface model constructed with different polygon envelopes on the material removal rate were analyzed with the Al6061 aluminum alloy blisk sample. The experimental results verify the wire saw cutting has a high material removal rate, and the integrity of the scrap can realize the reprocessing of other parts. The material removal rate decreases with the envelope polygon side number increase for the Al6061 aluminum alloy blisk sample. There is no metallographic change and crack inside of the surface after wire saw cutting for the Al6061 aluminum alloy. The average surface roughness of the workpiece after equivalent plane wire saw cutting is 529.24 nm.