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    jsp.display-item.identifier=請使用永久網址來引用或連結此文件: https://irlib.pccu.edu.tw/handle/987654321/48447


    题名: 工程塑膠小孔製程之田口類神經網路啄鑽參數模型
    Peck-Drilling Parameter Model of a Small-Hole Process of Engineering Plastics Using Taguchi-based Neural Networks Method
    作者: 吳興垚
    贡献者: 機械工程學系數位機電碩士班
    关键词: 工程塑膠
    鑽削
    切削推力
    田口方法
    倒傳遞類神經網路
    日期: 2020
    上传时间: 2020-08-20 10:12:45 (UTC+8)
    摘要: 工程塑膠材料具高熱膨脹係數特性,鑽削製程中會因切削熱因素,而產生縮孔現象,特別在小孔製程中,鑽削參數與切削特性需詳細地討論,才能獲得穩定的孔品質。本研究執行工程塑膠PEEK之小孔鑽削實驗研究,探討製程參數對軸向切削推力(axial thrust force)與孔品質特性之影響。實驗採啄鑽工法並施以切削劑加工,分析的啄鑽參數有:主軸轉速、進給率、啄鑽深度,以三水準因子之L27直交表進行全因子實驗,推論出最佳參數水準條件。分析的鑽削案例有二:∅0.5 mm與∅1.0 mm。
    在參數模型方面,本研究應用田口直交表具因子正交性的實驗組合,建立田口基類神經網路模型。本文使用倒傳遞類神經網路(BPNN),設定三項啄鑽參數與切削推力為輸入層神經元變數,並以兩項孔品質特性-孔徑縮量與真圓度為網路輸出層神經元變數。透過逐步增加網路訓練例的方法,經過三階段的網路訓練,獲得可以精確模擬網路訓練例的網路模型,並具備其它未參與網路訓練案例的預測功能。
    Engineering plastic has a high thermal expansion coefficient, during the drilling process, a hole shrinkage is always generated due to the cause of cutting heat. Especially for a small-hole fabrication, drilling parameters and cutting characteristics should be discussed thoughtfully to obtain the stable hole quality. This study conducted small-hole drilling experiments of engineering plastic PEEK, to investigate the effects of drilling parameters on the axial thrust force and hole characteristics. The experimental hole was machined by peck-drilling method and operating with coolant. Peck-drilling parameters analyzed included the spindle speed, feed rate, and depth of peck drilling. The three-level full-factorial experiment, L27, was carried out to derive the optimal factorial level combination. Two cases of 0.5 and 1.0 mm diameter were performed in this study.
    As to the parameter modeling, this paper established a Taguchi-based neural network model based on the parameter combinations with factorial orthogonality of Taguchi’s orthogonal array using the Back-Propagation neural network (BPNN). Four variables were set as the input layer neurons including the three peck-drilling parameters and the axial thrust force, and two characteristic of the hole’s shrinkage in diameter and roundness were designated as the variables of the output layer neurons. Through the method of increasing the training examples progressively, after three-stage training process, a neural network was developed, which can precisely simulate the patterns of network’s training sets and provide the predict function for the cases not involved in the network training.
    显示于类别:[機械工程系暨機械工程學系數位機電研究所] 博碩士論文

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