The researches concern the influence of the helix angle on the composite machining process

Rongsheng Jiang, Jinxin Wang, Yu Gao, Zhaolong Zhu, P. Cao
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引用次数: 2

Abstract

Magnesium oxide-reinforced wood fiber composites (MgO/WF) are a new type of multifunctional material, which can be used in different occasions, such as shopping malls, hotels, and residential buildings. Referring to the relevant literature, there is no research on the milling performance of MgO/WF. In order to better understand the relevant knowledge of the processability of MgO/WF, three cutters with different helix angles were used in this experiment to carry out the cutting of MgO/WF, and the variation trend of its cutting force, tool wear, and surface roughness was measured. The results are as follows: First, under the same cutting parameters, the resultant force decreases with the increase of helix angle. Second, with the increase of helix angle, the tool wear was slightly improved. Third, the surface roughness (Ra) showed an increasing trend with the decrease of helix angle. In the end, when milling MgO/WF, better machined surface quality and less tool wear can be obtained by selecting the tool with larger helix angle.
研究了螺旋角对复合加工过程的影响
氧化镁增强木纤维复合材料(MgO/WF)是一种新型多功能材料,可用于商场、酒店、住宅等不同场合。参考相关文献,没有对MgO/WF的铣削性能进行研究。为了更好地了解MgO/WF可加工性的相关知识,本实验使用三种不同螺旋角的刀具对MgO/WF进行切削,并测量其切削力、刀具磨损和表面粗糙度的变化趋势。结果表明:①在相同切削参数下,随着螺旋角的增大,合力减小;其次,随着螺旋角的增大,刀具磨损略有改善。随着螺旋角的减小,表面粗糙度Ra呈增大趋势。最后,在铣削MgO/WF时,选择螺旋角较大的刀具可以获得较好的加工表面质量和较少的刀具磨损。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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