Monitoring of through-feed centreless grinding processes with acoustic emission signals

•The Acoustic Emission (AE) was used to monitoring of centreless grinding process.•The frequency of EA was related to surface roughness, cylindricity, and roundness.•The FFT and Wavelet provided an data analysis with a best understanding.•The content of AE signal is a powerful tool to monitoring the...

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Bibliographic Details
Published in:Measurement : journal of the International Measurement Confederation 2016-12, Vol.94, p.71-79
Main Authors: Dias, Everaldo Araújo, Pereira, Flávio Bonato, Ribeiro Filho, Sergio Luiz Moni, Brandão, Lincoln Cardoso
Format: Article
Language:English
Subjects:
Acoustic emission
Acoustic emission testing
Ball bearings
Bushings
Centreless grinding
Emission analysis
Grinding
Machine tools
Mechanical components
Monitoring
Needles
On-line systems
Roundness
Shock absorbers
Signal processing
Surface properties
Surface roughness
Tolerances
Valves
Wavelet
Wavelet analysis
Workpieces
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Summary:•The Acoustic Emission (AE) was used to monitoring of centreless grinding process.•The frequency of EA was related to surface roughness, cylindricity, and roundness.•The FFT and Wavelet provided an data analysis with a best understanding.•The content of AE signal is a powerful tool to monitoring the centreless grinding. Grinding is a mechanical removal process applied mainly in finishing operations of hardened workpieces to produce small tolerances with high-quality. Especially, centreless grinding is broadly used in serial production due to the requirement of high accuracy in process. Centreless grinding is used to produce several mechanical components such as, bushings, needles, ball bearings, valves, and stems for shock absorbers. However, the setup of machine tools is very complex and needs long time due to the great number of input variables that should be checked and configured. The acoustic emission monitoring can be used to help the first setup or during the grinding process becoming a on-line detection system. Considering the importance of obtaining an efficient methodology to predict and detect the surface quality and the dimensional errors, a monitoring of the frequency on the spectrum of acoustic emission (EA) was conducted, related to surface roughness Rz, cylindricity, and roundness. The FFT and Wavelet were applied aiming to help the analysis of data and provide the best understanding of the signal and generating an intelligent information in the automation in grinding process. Thus, in this work the results showed that the analysis of the harmonic content of acoustic emission signal is a powerful tool to monitoring the centreless grinding process.
ISSN:0263-2241
1873-412X
DOI:10.1016/j.measurement.2016.07.075