Pengukuran Ketebalan Lapisan Metal Pada Plastik Berbasis Sensor Inframerah
Abstract
Plastic metalization process is carried out by heating the aluminum to its melting point in a vacuum so that the atoms and molecules will be evaporate and stick on to the plastic surface, then forming thin layer accross its surface. PT. Tomoko Daya Perkasa is one of the companies who performs plastic metalization. In doing this process, the company uses rewind machine and metallizing machine. PT. Tomoko Daya Perkasa uses OD-Meter to measure metal coating thickness. This tool is not embedded on the metallization machine. Therefore, a tool that can be mounted directly to metallizing machine is needed to monitor the thickness during the process of metalization. The metal layer thickness gauges are designed using the GP2Y1010AU0F infrared sensor and TSL2561 infrared receiver. Arduino and VB-NET software are used to create the program of the tool. Laboratory test and rewind machine test results show measurement errors of 0.3% and 1.9%, respectively. These error values are still acceptable, because the maximum limit of tolerance applied in PT. Tomoko Daya Perkasa is about 2.5%. In conclusion, the tool works well and can be used as expected.
References
Copeland, N. J., & Astbury, R, “Evaporated Aluminium on Polyester Optical Electrical and Barrier Properties as a Function of Thickness and Time”, AIMCAL Technical Confrence, 2010, hal. 1-18.
Sudarno, Suharyanto, dan T.Haryono, “Aplikasi Densitas Optis untuk Pengukuran Ketebalan Lapisan Metal pada Plastik,” Science and Enggeering Nasional Seminar 1 (SENs 1), 2015, Paper 23, hal 181-191.
Budianto, Insap.S, dan Sujoko.S, “Purwarupa Sistem Peringatan Dini Awan Panas Gunung Api Berbasis Sistem Informasi Geografis (Kasus Gunung Merapi di Perbatasan Jawa Tengah dan Daerah Istimewa Yogyakarta),” J. Nas. Tek. Elektro dan Teknol. Inf., Vol. 1, No. 1, hal. 24-30, Mei 2012.
GP2Y1010AU0F Compact Optical Dust Sensor, SHARP, 2006.
TSL2360, TSL2561, Light to Digital Converter, TAOS, 2009.
Marsh, K., & Bugusu, B, “Food Packing Roles, Material and Environmental Issues,” Journal of Food Science, Vol.72, No. .3, hal. 39-58, 2007.
Ludwid R., Hans.G.L, dan Gerd.H, “Production Proven Vacuum Web Coating System with High Process Flexibility for Robust and Environmentally-Friendly Transparent Barriers”, AIMCAL Fall Technical Conference, Applied Materials, 2010.
Akram, H, “Selection of Precise Vacuum Pumps for the Syatems with Diverse Vacuum Ranges,” Global Journal of Researches in Engineering Mechanical and Mechanics Engineering, Vol. XIV, Issue. II, hal. 1-8, 2014.
Arduino Mega 2560 datasheet, [Online] https://www.robotshop.com/media/files/pdf/arduinomega2560datasheet.pdf, tanggal akses: 13 November 2017.
Arduino Nano (V2.3) User Manual, [Online] https://www.arduino.cc/en/uploads/Main/ArduinoNanoManual23.pdf, tanggal akses: 19 Oktober 2017.
Nwofe, P, “Influence of Film Thickness on the Optical Properties of Antimony Sulphide Thin Film Grown by the Solution Growth Technique,” European Journal of Applied Engineering and Scientific Research, Vol. 4, Hal. 1-6, 2015.
Bishop, C. A., & Mount III, E, Metallizing Technical Reference. In AIMCAL, The Association of International Metallizers, Coatersand Laminators, 2012.
Sudarno, Suharyanto, T.Haryono, “Perancangan Alat Pantau Ketebalan Aluminium Pelapis Plastik,” Proceeding CITEE, 2015, paper S-TEIa#9, hal. 252-258.
© Jurnal Nasional Teknik Elektro dan Teknologi Informasi, under the terms of the Creative Commons Attribution-ShareAlike 4.0 International License.