Experimental investigation and optimisation of laser direct part marking of Inconel 718

•Direct laser marking test were performed on Inconel 718, adopting a Q-Switched fibre laser.•The marks geometry and readability (Weber contrast) were measured.•Analysis of Variance was adopted to evaluate the effect of the process parameters on mark characteristics.•Response Surface Method was adopt...

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Bibliographic Details
Published in:Optics and lasers in engineering 2018-12, Vol.111, p.154-166
Main Authors: Leone, C., Bassoli, E., Genna, S., Gatto, A.
Format: Article
Language:English
Subjects:
ANoVA
Laser marking
Readability
Superalloy
Weber contrast
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Summary:•Direct laser marking test were performed on Inconel 718, adopting a Q-Switched fibre laser.•The marks geometry and readability (Weber contrast) were measured.•Analysis of Variance was adopted to evaluate the effect of the process parameters on mark characteristics.•Response Surface Method was adopted to model the marking process.•Master Response Optimisation was adopted to optimise the marking process. Many industries need product identification; laser marking is suitable to produce any kind of symbol, data matrix or bar code on parts. Consequently, the most important requirement for marking acceptance is, doubtless, the mark readability. The present study deals on the effect of process parameters on the laser marking of Inconel 718, with the aim to find a relation between the process parameters and mark characteristics in term of both mark geometry and readability. To this aim, laser markings, under different process conditions, were performed on Inconel 718 sheets, adopting a 30 W Q-switched Yb:YAG laser. The mark geometry was acquired by a 3D surface profiling system. Optical microscopy and SEM analysis were also performed on groove sections. In order to evaluate the readability of the marks, Weber contrast was calculated and adopted. The mark characteristics have been investigated by mean of statistical methodology (ANalysis of VAriance and Response Surface Method) and related to the process parameters. Furthermore, Master Response Optimisation methodology was adopted to individuate the optimal process conditions. It was found that mark geometry and the Weber contrast are mainly affected by the average power and the energy input per mark-length. Moreover, operative conditions allowing for maximum readability, yet without excessive increase in burr height, were also determined.
ISSN:0143-8166
1873-0302
DOI:10.1016/j.optlaseng.2018.08.004