An integrated analysis of productivity, hole quality and cost estimation of single-pulse laser drilling process

Date published

2020-11-03

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Article

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0954-4054

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Sarfraz S, Shehab E, Salonitis K, et al., (2020) An integrated analysis of productivity, hole quality and cost estimation of single-pulse laser drilling process. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, Volume 235, Issue 14, December 2021, pp. 2273–2287

Abstract

Laser drilling is a well-established manufacturing process utilised to produce holes in various aeroengine components. This research presents an experimental investigation on the effects of laser drilling process parameters on productivity (material removal rate), hole quality (hole taper) and drilling cost. Single-pulse drilling was employed to drill a thin-walled Inconel 718 superalloy plate of 1mm thickness using pulsed Nd:YAG laser. The experiments were designed using Box-Behnken statistical approach to investigate the impacts of pulse energy, pulse duration, gas pressure and gas flow rate on the selected responses. Multi-objective optimisation was performed using response surface methodology (RSM) based grey rational analysis (GRA) to identify optimal drilling conditions aiming to maximise the MRR and minimise hole taper and drilling cost. The optimal combination of drilling parameters was found as pulse energy of 20 J, pulse duration of 6 ms, gas pressure of 100 psi and gas flow rate of 40 mm3/s. A detailed cost analysis identified labour cost, gas consumption and machine costs as the major cost elements of the laser drilling process

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Github

Keywords

multi-objective optimisation, hole taper, cost, material removal rate, single-pulse, Laser drilling

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Attribution 4.0 International

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