The effect of cryogenic machining of S2 glass fibre composite on the hole form and dimensional tolerances

Ugur Koklu,Carol Featherston,Malik Haddad,Sezer Morkavuk,Muhammad Aamir,Danil Yu Pimenov,David Sanders,Khaled Giasin

doi:10.1007/s00170-021-07150-y

Abstract

S2 glass fibre reinforced epoxy composites are widely used in aeronautical applications owing to their excellent strength to weight ratio. Drilling glass fibres can be cumbersome due to their abrasive nature and poor thermal conductivity. Moreover, the use of conventional coolants is not desirable due to contamination and additional costs for cleaning the machine part. An alternative is to use environmentally friendly coolants such as liquid nitrogen (LN2) which have been previously employed in machining metals and composites. The current study investigates the effect of drilling S2 glass fibre composite in a bath of LN2. The study aims to evaluate the effect of spindle speed, feed rate and the presence of cryogenic cooling on the form and dimensional tolerances of the hole (hole size, circularity, cylindricity and perpendicularity). Design of experiments and analysis of variance (ANOVA) were used to determine the contribution of the input parameters on the analysed hole quality metrics. Results indicated that drilling S2 glass fibre in a cryogenic bath increased hole size significantly beyond the nominal hole diameter. The hole circularity and cylindricity were reduced compared to holes drilled under dry condition under all cutting parameters due to enhanced thermal stability during the drilling process. The current study aims to provide the scientific and industrial communities with the necessary knowledge on whether cryogenic bath cooling strategy provides better hole quality output compared to dry drilling and other cryogenic cooling strategies which were previously reported in the open literature.

Highlights

Glass fibre is the original fibre reinforcement of modern composites; it is mainly used as structural reinforcement in civil, marine and aviation applications
The hole size deviation from the nominal size at top of the hole is more than at the bottom of the hole in dry drilling environment, while the holes obtained in the cryogenic condition were found less deviated from the nominal size at the top as compared with the bottom side
The current study investigated the effect of drilling holes in S2/FM94 glass fibre composite in a cryogenic bath of liquid nitrogen

Summary

Introduction

Glass fibre is the original fibre reinforcement of modern composites; it is mainly used as structural reinforcement in civil, marine and aviation applications. Addition, S and S2 glass fibres have the highest tensile strength among all other types of glass fibres [3] They are attractive for use in aerospace applications because of their relative light weight, high strength and stiffness. Drilling glass fibre composites is challenging since the fibres have abrasive nature and the laminate have poor thermal conductivity. This in return would lead to rapid tool wear and lower hole quality due to increased chance for delamination and out-of-range hole tolerances. Using oil-based or water-based coolants is an attractive choice to overcome tool wear and increase temperatures during the machining process [6]. Even the produced chip is free from oil and water contaminations, and the collected chips could be recycled [11]

Methods

Results

Conclusion