4.5 Article

Effects of machining parameters on surface quality of composites reinforced with natural fibers

期刊

MATERIALS AND MANUFACTURING PROCESSES
卷 36, 期 1, 页码 73-83

出版社

TAYLOR & FRANCIS INC
DOI: 10.1080/10426914.2020.1813896

关键词

Natural; fibers; polypropylene; surface; roughness; delamination; milling; parameters; morphology; microscopy; mechanism; ANOVA

资金

  1. Ministry of Business, Innovation and Employment (MBIE), New Zealand [UOAX1415]

向作者/读者索取更多资源

This study analyzed the effects of machining parameters on the surface quality of natural fiber reinforced composites during end milling, finding significant differences in silicon content and hardness values of different fibers impacting the surface quality. Kenaf/PP composites showed the lowest delamination damages and best surface finish, while RH/PP composites were the most challenging to machine. Spindle speed was found to have a greater influence on machined surface quality compared to feed rate for NFRCs.
To minimize the surface roughness and delamination problems during the end milling of natural fiber reinforced composites (NFRCs), it is essential to understand the effects of the machining parameters (spindle speed and feed rate) and the kinematics of material removal. In this study, the effects of machining parameters on the machined surface quality - surface roughness (R-a) and delamination factor (F-d), during end milling of kenaf, jute and rice husk (RH) reinforced polypropylene (PP) composites has been analyzed using a two-factor, three-level experimental plan. It has been noticed that there are significant differences in the silicon contents (kenaf: 0.57%, jute: 4.16% and RH: 22.2%) and hardness values (kenaf: 0.15, jute: 0.20 and RH:0.59 GPa) of the three natural fibers, which has influenced the resulted surface quality of the machined NFRCs. Kenaf/PP composites showed the lowest delamination damages and the best surface finish most likely due to the fiber composition and morphology of kenaf, while predictably, RH/PP composites were the most demanding to machine. With a statistical analysis on the results, it is concluded that the machined surface quality is more influenced by spindle speed with percentage contribution showing at least three times more than feed rate for machining NFRCs.

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