In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach
Ceramic cutting tools are prone to failure by chipping and fracture rather than gradual wear mainly because of their low impact resistance. This results in poor surface finish and low dimensional accuracy of the machined parts. In this work, a vision-based approach has been developed to detect the o...
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2016
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| Online Access: | http://eprints.uthm.edu.my/4917/1/AJ%202017%20%28240%29%20In-process%20detection%20of%20chipping%20in%20ceramic.pdf http://eprints.uthm.edu.my/4917/ http://dx.doi.org/10.1007/s00170-015-8038-6 |
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my.uthm.eprints.49172021-12-23T08:24:39Z http://eprints.uthm.edu.my/4917/ In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach Lee, W. K. Ratnam, M. M. Ahmad, Z. A. TJ Mechanical engineering and machinery TA1501-1820 Applied optics. Photonics Ceramic cutting tools are prone to failure by chipping and fracture rather than gradual wear mainly because of their low impact resistance. This results in poor surface finish and low dimensional accuracy of the machined parts. In this work, a vision-based approach has been developed to detect the onset of chipping in aluminum oxide ceramic cut-ting tools during the dry turning of AISI 01 oil-hardening tool steel. The profile of the workpiece surface opposite the cutting tool was captured during the turning using 18-megapixel DSLR camera at a shutter speed of 0.25 ms. The surface profile of the workpiece was extracted to sub-pixel accuracy using the invariant moment method. The effect of chipping in the ceramic cutting tools on the surface profile signature of the machined workpiece was investigated using autocorrelation analysis. Chipping in the ceramic tool was found to (i) cause the peaks of autocorrelation function of the workpiece profile to decrease rapidly as the lag distance increased and (ii) cause the envelope of the peaks of the autocorrelation function to deviate significantly from one another at different workpiece rotation angles. The sum of squared deviation (SSD) of the envelope of the peak of autocorrelation function was also found to increase sharply right after tool chipping. Significant variations in the SSD at different workpiece rotation angles were observed beyond the cutting time of 11.1 s because of the continuous chipping of the ceramic insert during turning. Springer International Publishing 2016 Article PeerReviewed text en http://eprints.uthm.edu.my/4917/1/AJ%202017%20%28240%29%20In-process%20detection%20of%20chipping%20in%20ceramic.pdf Lee, W. K. and Ratnam, M. M. and Ahmad, Z. A. (2016) In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach. International Journal of Advanced Manufacturing Technology, 85. pp. 1275-1290. ISSN 0268-3768 http://dx.doi.org/10.1007/s00170-015-8038-6 |
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TJ Mechanical engineering and machinery TA1501-1820 Applied optics. Photonics Lee, W. K. Ratnam, M. M. Ahmad, Z. A. In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach |
| description |
Ceramic cutting tools are prone to failure by chipping and fracture rather than gradual wear mainly because of their low impact resistance. This results in poor surface finish and low dimensional accuracy of the machined parts. In this work, a vision-based approach has been developed to detect the onset of chipping in aluminum oxide ceramic cut-ting tools during the dry turning of AISI 01 oil-hardening tool steel. The profile of the workpiece surface opposite the cutting tool was captured during the turning using 18-megapixel DSLR camera at a shutter speed of 0.25 ms. The surface profile of the workpiece was extracted to sub-pixel accuracy using the invariant moment method. The effect of chipping in the ceramic cutting tools on the surface profile signature of the machined workpiece was investigated using autocorrelation analysis. Chipping in the ceramic tool was found to (i) cause the peaks of autocorrelation function of the workpiece profile to decrease rapidly as the lag distance increased and (ii) cause the envelope of the peaks of the autocorrelation function to deviate significantly from one another at different workpiece rotation angles. The sum of squared deviation (SSD) of the envelope of the peak of autocorrelation function was also found to increase sharply right after tool chipping. Significant variations in the SSD at different workpiece rotation angles were observed beyond the cutting time of 11.1 s because of the continuous chipping of the ceramic insert during turning. |
| format |
Article |
| author |
Lee, W. K. Ratnam, M. M. Ahmad, Z. A. |
| author_facet |
Lee, W. K. Ratnam, M. M. Ahmad, Z. A. |
| author_sort |
Lee, W. K. |
| title |
In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach |
| title_short |
In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach |
| title_full |
In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach |
| title_fullStr |
In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach |
| title_full_unstemmed |
In-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach |
| title_sort |
in-process detection of chipping in ceramic cutting tools during turning of difficult-to-cut material using vision-based approach |
| publisher |
Springer International Publishing |
| publishDate |
2016 |
| url |
http://eprints.uthm.edu.my/4917/1/AJ%202017%20%28240%29%20In-process%20detection%20of%20chipping%20in%20ceramic.pdf http://eprints.uthm.edu.my/4917/ http://dx.doi.org/10.1007/s00170-015-8038-6 |
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1738581313715175424 |
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