skip to main content

The Impact of Using Portable Sealer on Drop Out Component' Number at Surface Mounting Technology Production Line

Analisis Dampak Penggunaan Portable Sealer Terhadap Jumlah Drop Out Component di Lini Produksi Surface Mounting Technology

*Adi Nugroho  -  Program Studi Teknik Industri Fakultas Teknik, Universitas Universal, Indonesia
Abdul Muchid  -  Program Studi Teknik Industri Fakultas Teknik, Universitas Putera Batam, Indonesia
Open Access Copyright (c) 2021 TEKNIK

Citation Format:
Abstract

The study aims to reduce the drop out of components that occur in the surface-mounting technology production line of PT. TEC Indonesia. This effort is carried out by designing a portable sealer product to glue the cover tape and carrier tape component products made in the line. In order to obtain the best value indicator for product design, this study uses a quantitative factorial design technique to determine value reduce drop out of components in the surface mounting technology (SMT) production of the parameter combination use of adhesive strength produced by the product. Information on study data obtained through the concept of experimental design (DOE) using temperature and treatment time parameters resulting from the product's design. Results of the tests have been carried out. Information on the adhesive strength reaches standard is rated at a temperature 1200 C for one two and three seconds, which can produce adhesion of 0.029 Kgf (the standard value is at 0.02-0.07 Kgf). In addition, the number of drop-out components produced after using the product has decreased significantly to zero, which previously reached an average of two to three components that were damaged or defective (test data).

Fulltext View|Download
Keywords: portable sealer, drop out component

Article Metrics:

Article Info
Section: Artikel
Language : EN
  1. Athalye, A., Gera, P., & Madan, A. R. (2015). Study and analysis of cost reduction techniquesby scrap utilization of press part production: a case study of stamping unit. International Journal of Science and Research, 4(4), 3247-3252
  2. Huda, A., & Yani, N. (2014). Pemanfaatan Elemen Pemanas Sebagai Alat Sablon Digital dengan Menggunakan Timer dan Didukung Oleh Bahasa emprograman Borlan Delphi 7.0. Jurnal Teknologi Dan Pendidikan, 7(2), 171-192
  3. Khannan, M. S. A., & Haryono, H. (2015). Analisis Penerapan Lean Manufacturing untuk Menghilangkan Pemborosan di Lini Produksi PT Adi Satria Abadi. Jurnal Rekayasa Sistem Industri, 4(1), 47-54
  4. Lubis, H., Fathir, A., & Abas. (2016). Pembuatan Bumbu y Pemanas Listrik Temperatur 800ºC dengan Kapasitas 3Kg. Polimesin, 14(1), 21–26
  5. Mariappan, M., Hong, T. J., & Sing, J. C. (2015). Design and Fabrication of an Industrial Semi-Automatic Label Shrinking Machine for PolyEthylene Terephthalate ( PET ) Bottles. International Journal of Innovative Science, Engineering & Technology, 2(11), 657–669
  6. Mulyanah, E., & Hellyana, C. M. (2015). Perancangan Dan Pembuatan Alat Pengering Kerupuk Otomatis Menggunakan Mikrokontroler atmega16. Jurnal Evolusi, 3(2), 43-47
  7. Matathil, A., N, G. K., & Ramachandran, K. (2012). Reduction of Scrap in an Electronic Assembly Line Using DMAIC Approach. SASTECH Journal, 11(2), 53–59
  8. RoHM. (2016). Package information WSOF5. Diakses dari rohmfs.rohm.com/en/techdata_basic/ic/package/wsof5_1-e.pdf, tanggal 20 Oktober 2020
  9. Rahman, M. B. N., Sunardi, S., Erlangga, M. B., & Pratama, M. F. (2019). Pengaruh Temperatur dan Waktu Etching Terhadap Karakeristik Fisik dan Mekanik Pelapisan Nikel pada Plastik ABS dengan Metode Elektrolessplating. REM (Rekayasa Energi Manufaktur) Jurnal, 3(2), 61-69
  10. Mulyanto, T., Supriyono, & Parama Arta, S. (2020). Pengaruh perlakuan awal terhadap daya rekat dan kekuatan lapisan pada proses pengecatan serbuk. Jurnal Asiimetrik: Jurnal Ilmiah Rekayasa &Inovasi, 2(1),25-32. https://doi.org/10.35814/asiimetrik.v2i1.1186
  11. Wang, Z. F., Gao, Y., Xu, X. L., Cao, Z. W., Gong, Y. C., & Chen, J. (2018). Design Method and Performance Evaluation Criteria of Advanced Spacecraft Heat Seal. Yuhang Xuebao/Journal of Astronautics, 39(7), 793–800. https://doi.org/10.3873/j.issn.1000-1328.2018.07.011
  12. Yamada, K., Miyata, K., Konishi, R., Tsujii, T., & Hashimoto, Y. (2015, May). Heat seal processing by using various seal bar shape. AIP Conference Proceedings, 1664(1), 080002

Last update:

No citation recorded.

Last update:

No citation recorded.