ANALYSIS OF TIRE FILLING RESULTS ON TIRE PATCH WITH AUTOMATIC TEMPERATURE CONTROLLER

I Made Arsana, Jurusan Teknik Mesin, Fakultas Teknik, Universitas Negeri Surabaya, Indonesia

Abstract


An automatic temperature control tire patch are designed to make it easier to patch the tires, shorten the time and improve the quality of the tires. Tire fatch with automatic temperature controller are equipped with thermocouple and thermocontrol displays. Thermocouple is used as a temperature sensor and thermocontrol display as a medium that can be used to adjust and determine the tire temperature. This experimental study aims to determine the performance of tire patch tool in producing good quality patches with a relatively short time. Equipment and instruments used in this research are display thermocontrol, thermocouple, voltmeter, and amperemeter. The data obtained are then analyzed descriptively. The best patch results in this study were found at 70oC in the "perfect" category. The T1 temperature is 134oC, T2 is 70oC and T3 is 65,9oC, while the heat transfer rate at Qplate is 36,500 watts and Qban is 0,0691875 watts with the time of filling for 1 minute 47 seconds (107 seconds).


Keywords


Tire fatch, conduction heat transfer, temperature, thermocontrol display, and thermocouple

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References


Andrizal. 2003. Pembuatan Alat Tambal Ban Dalam (Benen) Kendaraan Semi Otomatis. Padang: Lembaga Penelitian Universitas Negeri Padang.

Ashari, A., Mufarida, A., dan Efan, N., A. 2016. Analisis Perpindahan Panas pada Alat Tambal Ban Elektrik. Jurnal Kajian Ilmah dan Teknologi Teknik Mesin: Vol. 01. No. 01, Agustus 2016.

Benidiktus, Ariwibowo (2012) Perancangan Alat Press Tambal Ban Elektrik dengan Pengatur Waktu untuk Ban Dalam Sepeda Motor. Yogyakarta: UPN “Veteran” Yogyakarta.

Bull, Kevin. 2008. Thermistors and Thermocouples: Matching the Tool to the Task in Thermal Validation. The Journal Validation Technology, winter 2008.

Cengel, Yunus A., 2003. Heat Transfer: A Practical Approach. 2nd Edition. McGraw-Hill. New York.

Holman, J. P. 2010. Heat Transfer. 10th Edition. McGraw-Hill. USA.

Danielson, L. K., and Gardner, R. 1996. A New High-Stability AC Voltmeter with A 10-Mhz Frequency Range and 1% Accuracy. Hewlett-Packard Journal, Vol. 17, No. 5, January, 1996.

Ortuño, M., Márquez, A., Gallego, S., Neipp, C. and Beléndez, A. 2011. An experiment in heat conduction using hollow cylinders. European Journal of Physics, Vol. 32, No. 4, pp 1065-1075.

Permadi, I., Sumardi, dan Setiawan, I. 2012. Pengendalian Temperature pada Plant Electric Furnance Menggunakan Sensor Thermocouple dengan Metode Fuzzy. Makalah Seminar Tugas Akhir. Semarang: Universitas Diponegoro.

Satrio, W., A. 2012. Alat Tambal Ban Elektrik dengan Pendekatan Value Engineering. Tugas Akhir tidak diterbitkan. Surabaya: Universitas Wijaya Putra Surabaya.

Wulandari, D. C., dan Wilidian. 2014. Rancang Bangun Ammeter DC Tipe Non-Destructive Berbasis Mikrokontroler Atmega 8535 Dengan Sensor Efek Hall ACS712. Jurnal Fisika Unand Vol. 3, No. 2, April 2014.

Zaputra, A., O. 2016. Rancang Bangun Alat Pendeteksi Suhu Pada Tambal Ban Dengan Metode Logika Fuzzy Menggunakan Mikrokontroler Atmega 8535. Tugas Akhir tidak diterbitkan. Palembang: Politeknik Negeri Sriwijaya.

Zhengyu, W., Xiaoyang, Y., Guanghui, L., & Guangyu, T. (2014). Online Cutting Temperature Measurement System Based Thermocouple. International Journal of Control and Automation Vol.7, No.10 (2014), 7(10), 355–364.




DOI: https://doi.org/10.21831/jps.v22i2.16164

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