The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb
Bare biomedical grade titanium alloys are prone to degradation when in a body fluid environment. Surface coatings such as Physical Vapor Deposition (PVD) can serve as one of the options to minimize this issue. Past reports showed that the PVD coated layer consists of pores, pinholes, and columnar gr...
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MDPI AG
2018
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| Online Access: | http://eprints.utm.my/id/eprint/79749/1/SIzman2018_TheInfluenceofUltrasonicVibrationFrequency.pdf http://eprints.utm.my/id/eprint/79749/ http://dx.doi.org/10.3390/met8050317 |
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my.utm.797492019-01-28T06:50:11Z http://eprints.utm.my/id/eprint/79749/ The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb Shah, A. Izman, S. Ismail, S. N. F. Mas Ayu, H. Che Kob, C. C. Daud, R. Abdul Kadir, M. R. TJ Mechanical engineering and machinery Bare biomedical grade titanium alloys are prone to degradation when in a body fluid environment. Surface coatings such as Physical Vapor Deposition (PVD) can serve as one of the options to minimize this issue. Past reports showed that the PVD coated layer consists of pores, pinholes, and columnar growths which act as channels through which the aggressive medium attacks the substrate. Duplex and multilayer coatings seem able to address this issue to varying extents but at the expense of manufacturing time and cost. In this paper, the effect of an ultrasonic vibration frequency on PVD TiN coated Ti-13Zr-13Nb biomedical alloy was studied. Disk type samples were prepared and coated with TiN at fixed conditions: bias voltage (-125 V), substrate temperature (300 °C), and nitrogen gas flow rate (300 standard cubic centimeters per minute (SCCM)). An ultrasonic vibration was then subsequently applied to the TiN coated samples at frequencies of 8 kHz and 16 kHz for 5 min. All TiN coated samples treated with ultrasonic vibrations exhibited a higher corrosion resistance than the untreated ones. Microstructure analysis under Field Emission Scanning Electron Microscopy (FESEM) confirmed that the coated sample at frequencies of 16 kHz produced the most compact coating. It is believed that the hammering effect of the ultrasonic vibration reduced the micro channels’ size in the coating and thus decelerated the corrosion’s attack. MDPI AG 2018 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/79749/1/SIzman2018_TheInfluenceofUltrasonicVibrationFrequency.pdf Shah, A. and Izman, S. and Ismail, S. N. F. and Mas Ayu, H. and Che Kob, C. C. and Daud, R. and Abdul Kadir, M. R. (2018) The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb. Metals, 8 (5). ISSN 2075-4701 http://dx.doi.org/10.3390/met8050317 DOI:10.3390/met8050317 |
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TJ Mechanical engineering and machinery Shah, A. Izman, S. Ismail, S. N. F. Mas Ayu, H. Che Kob, C. C. Daud, R. Abdul Kadir, M. R. The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb |
| description |
Bare biomedical grade titanium alloys are prone to degradation when in a body fluid environment. Surface coatings such as Physical Vapor Deposition (PVD) can serve as one of the options to minimize this issue. Past reports showed that the PVD coated layer consists of pores, pinholes, and columnar growths which act as channels through which the aggressive medium attacks the substrate. Duplex and multilayer coatings seem able to address this issue to varying extents but at the expense of manufacturing time and cost. In this paper, the effect of an ultrasonic vibration frequency on PVD TiN coated Ti-13Zr-13Nb biomedical alloy was studied. Disk type samples were prepared and coated with TiN at fixed conditions: bias voltage (-125 V), substrate temperature (300 °C), and nitrogen gas flow rate (300 standard cubic centimeters per minute (SCCM)). An ultrasonic vibration was then subsequently applied to the TiN coated samples at frequencies of 8 kHz and 16 kHz for 5 min. All TiN coated samples treated with ultrasonic vibrations exhibited a higher corrosion resistance than the untreated ones. Microstructure analysis under Field Emission Scanning Electron Microscopy (FESEM) confirmed that the coated sample at frequencies of 16 kHz produced the most compact coating. It is believed that the hammering effect of the ultrasonic vibration reduced the micro channels’ size in the coating and thus decelerated the corrosion’s attack. |
| format |
Article |
| author |
Shah, A. Izman, S. Ismail, S. N. F. Mas Ayu, H. Che Kob, C. C. Daud, R. Abdul Kadir, M. R. |
| author_facet |
Shah, A. Izman, S. Ismail, S. N. F. Mas Ayu, H. Che Kob, C. C. Daud, R. Abdul Kadir, M. R. |
| author_sort |
Shah, A. |
| title |
The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb |
| title_short |
The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb |
| title_full |
The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb |
| title_fullStr |
The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb |
| title_full_unstemmed |
The influence of ultrasonic vibration frequency on the properties of TiN coated biomedical Ti-13Zr-13Nb |
| title_sort |
influence of ultrasonic vibration frequency on the properties of tin coated biomedical ti-13zr-13nb |
| publisher |
MDPI AG |
| publishDate |
2018 |
| url |
http://eprints.utm.my/id/eprint/79749/1/SIzman2018_TheInfluenceofUltrasonicVibrationFrequency.pdf http://eprints.utm.my/id/eprint/79749/ http://dx.doi.org/10.3390/met8050317 |
| _version_ |
1643658282000187392 |