韩艳君 讲师(高校)
机械工程学院
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Region adaptive scheduling for time-dependent processes with optimal use of machine dynamics
影响因子:14.0
DOI码:10.1016/j.ijmachtools.2020.103589
发表刊物:INTERNATIONAL JOURNAL OF MACHINE TOOLS & MANUFACTURE
关键字:Deterministic processing ;Analytical convolution model ;Feedrate scheduling; Adaptive path; DWELL-TIME; MODEL ;ALGORITHM ;OPTIMIZATION; RESTRAINT
摘要:In time-dependent processes, such as bonnet and fluid jet polishing, surface quality and accurate processing critically depend on careful planning of the tool feed. CNC feedrate commands are usually generated from a dwell time map calculated by deconvolution or numerical iteration. These methods are time-consuming, numerically unstable, and fail to consider dynamic stressing of the machine tool. In this research, Gaussian mixture model (GMM) is proposed to model experimental tool influence functions (TIF). This leads to a general analytical convolution model integrating processing depth, volumetric removal rate of TIF, path spacing and feedrate. Based on this model, a novel direct feedrate scheduling method is proposed, which is suitable for any kind of smooth time-dependent processing beam. Optimal feedrate scheduling within dynamic constraints of the machine tool is achieved by establishing acceptable path spacing and feed ranges, whilst dynamic stressing of the machine tool is optimized concurrently through adaptive path spacing. Simulations and experiments demonstrate the enhanced stability and usefulness of the proposed feedrate model in deterministic material removal. It also verifies that path adaptability allows for improved machine tool dynamics, without incurring a process accuracy penalty.
第一作者:Yanjun Han
论文类型:SCI
论文编号:20202708889732
文献类型:engineering.
卷号:156
ISSN号:0890-6955
是否译文:否
发表时间:2020-06-23
收录刊物:SCI、EI