以下是网学网为您推荐的机械设计-在经过铣削的模具表面粗糙度的研究和优化方法,希望本篇文章对您学习有所帮助。
中文字数:4772,中文页数:10 英文字数:4156页数:7
摘要
本文件的目的是建立一个田口优化方法低表面粗糙度而言,流程参数铣削模具表面的7075 - T6态铝材。考虑到工艺参数的材料,切削速度,轴向径向切削深度和加工宽容,一系列的实验,进行了铣削测量粗糙度数据。回归分析是在
已确定的数据中使用田口方法优化铣削实验的基础上完全因子设计。田口正交阵列信噪比(是/否)比,方差分析(方差分析)是用来寻找最佳的水平和效果的工艺参数对表面粗糙度。确认实验的最佳水平的工艺参数进行了以证明效力的田口方法。可以得出结论认为,田口方法非常适合于解决的表面质量问题的模具表面。
关键词 方差分析铣削模具表面,回归分析表面粗糙度,田口优化方法。
Abstract The objective of this paper is to develop a Taguchi
optimization method for low surface roughness in terms of pro-
cess parameters when milling the mold surfaces of 7075-T6
aluminum material. Considering the process parameters of feed,
cutting speed, axial-radial depth of cut, and machining tolerance,
a series of milling experiments were performed to measure the
roughness data. A regression analysis was applied to determine
the fitness of data used in the Taguchi optimization method using
milling experiments based on a full factorial design. Taguchi
orthogonal arrays, signal-to-noise (S/N) ratio, and analysis of
variance (ANOVA) are used to find the optimal levels and the
effect of the process parameters on surface roughness. A confir-
mation experiment with the optimal levels of process parameters
was carried out in order to demonstrate the effectiveness of the
Taguchi method. It can be concluded that Taguchi method is very
suitable in solving the surface quality problem of mold surfaces.
Keywords Analysis of variance · Milling · Mold surfaces ·
Regression analysis · Surface roughness · Taguchi optimization
method
