加工单体和石墨增强锌铝基复合材料时刀具磨损特性的研究

Q3 Engineering

International Journal of Machining and Machinability of Materials Pub Date : 2021-05-20 DOI:10.1504/IJMMM.2021.10038106

R. N. Marigoudar, P. Shashidhar, Sadashivappa Kanakuppi, B. V. Dharmendra, T. S. Manjunatha

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引用次数: 0

摘要

将石墨添加到传统复合材料中并使其混合以获得更好的可加工性是这项工作背后的座右铭。本文在干燥条件下对ZA43+SiC单体复合材料和ZA43+SiC+石墨杂化复合材料进行了机械加工。使用市售的涂层硬质合金SNMG 090308工具进行机械加工。切削变量，即加工速度、进给率和加工深度是可变的，并且对于每个加工试验使用新的切削刃。在加工这两类材料时测量刀具损伤，并进行比较。值得注意的是，与单一复合材料相比，混合复合材料造成的损伤较小。原因可能是复合材料中存在的石墨粉末导致了摩擦的减少。石墨是一种固体润滑剂，可防止工具被坚硬的工件磨损，并提高加工性能。对结果进行统计分析，给出了对加工过程影响最大的变量的详细信息。复合材料加工过程中的刀具磨损受加工速度和进给量的影响很大。在刀具磨损较少的情况下，可以考虑材料成分来绘制最佳加工参数。

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Study of tool wear characteristics while machining mono and graphite reinforced hybrid zinc - aluminium-based MMCs

The effect of graphite addition to conventional composites and making it hybrid for better machinability is the motto behind this work. Here, ZA43+SiC mono composite and ZA43+SiC+graphite hybrid composite are machined under dry condition. Machining is executed using commercially available coated carbide SNMG 090308 tool. Cutting variables viz. machining speed, feed rate and depth of machining are varied and for each machining trial fresh cutting edge is used. Tool damage is measured while machining both the categories of materials and are compared. It is noticed that the hybrid composite causes less damage in comparison with mono composite. The reason may be due to powdered graphite present in the composite which is responsible for reduction in the friction. Graphite being solid lubricant prevents tools getting abraded by the hard workpiece and promotes easy machinability. Statistical analysis done on the results gives the details about most influencing variable to the machining process. The tool wear during composite machining is greatly influenced by machining speed and feed. Optimum machining parameters can be drawn considering material composition for less tool wear condition.

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来源期刊

International Journal of Machining and Machinability of Materials Engineering-Industrial and Manufacturing Engineering

CiteScore

2.40

自引率

0.00%

发文量

期刊介绍： IJMMM is a refereed international publication in the field of machining and machinability of materials. Machining science and technology is an important subject with application in several industries. Parts manufactured by other processes often require further operations before the product is ready for application. Machining is the broad term used to describe removal of material from a workpiece, and covers chip formation operations - turning, milling, drilling and grinding, for example. Machining processes can be applied to work metallic and non metallic materials such as polymers, wood, ceramics, composites and special materials. Today, in modern manufacturing engineering, there has been strong renewed interest in high efficiency machining.