Production Process of Front Lights on Anoa 2 6x6 Special Vehicles at PT. Pindad (Persero)

Abdul Khair Junaidi; Nandha Syamza; Tri Subagyo

doi:10.36842/jomase.v65i3.211

Production Process of Front Lights on Anoa 2 6x6 Special Vehicles at PT. Pindad (Persero)

Abdul Khair Junaidi Industrial Engineering of Sekolah Tinggi Teknologi Pelalawan, Riau, Indonesia
Nandha Syamza Mechanical Engineering Departement, Universitas Riau, Indonesia
Tri Subagyo PT. PINDAD, Indonesia

DOI: http://dx.doi.org/10.36842/jomase.v65i3.211

Abstract

The headlights on Anoa 2 6x6 special vehicles are used for street lighting for anoa tanks at night. The purpose of this study was discussed the steps of production process of the Anoa 2 6x6 headlights in PT. Pindad. The headlight component was made in several manufacturing processes that were carried out. It consists of many parts, which a variety of production machines for the manufacture of each part. The manufacturing of the headlight components using machining processes such as laser cutting, welding, and drilling. The type of material used for the manufacture of the headlights and parts that was Aluminum Alloy 2044 and Steel ST-37. The result components were made the headlight frame, BT protectors, the front, side, and rear components.

##Keywords:## Headlights, Anoa 6x6, Production Process.

Published

Mar 30, 2021

How to Cite

JUNAIDI, Abdul Khair; SYAMZA, Nandha; SUBAGYO, Tri. Production Process of Front Lights on Anoa 2 6x6 Special Vehicles at PT. Pindad (Persero). Journal of Ocean, Mechanical and Aerospace -science and engineering-, [S.l.], v. 65, n. 1, p. 19-22, mar. 2021. ISSN 2527-6085. Available at: <https://isomase.org/Journals/index.php/jomase/article/view/211>. Date accessed: 19 aug. 2024. doi: http://dx.doi.org/10.36842/jomase.v65i3.211.

Citation Formats

Issue

Vol 65 No 1 (2021): Journal of Ocean, Mechanical and Aerospace -science and engineering- (JOMAse)

Section

Articles

References

[1] Vincent, O., Ijedinma, N., Ugwuegbu, C. and Onyemachi, S. (2018). Production planning and organizational effectiveness, Strategic Journal of Business and Social Science, Vol.1, pp:1-28.
[2] Parveen, S. and Ullah, H. (2010). Review on job-shop and flow shop scheduling using multicriteria decision making, Journal of Mechanical Engineering, Vol.41, No.2, pp:130-146.
[3] Panneerselvam, R. (2006). Production and Operation Management. Prentice Hall, New Delhi, India.
[4] Dinis-Carvalho, JosÃ© & Alves, Anabela & Sousa, Rui. (2014). Moving from job-shop to production cells without losing flexibility: A case study from the wooden frames industry, South African Journal of Industrial Engineering, Vol.25, pp: 212-225.
[5] Heizer, J. and Render, B. (2013). Operations Management. 11th edition. Prentice Hall.
[6] Zhang, J., Ding, G., Zou, Y., Qin, S. and Fu, J. (2019). Review of job shop scheduling research and its new perspectives under Industry 4.0, Journal of Intelligent Manufacturing, Vol.30, pp:1809-1830.
[7] Miltenburg, J. (2001). U-shaped production lines: a review of theory and practice, International Journal of Production Economics, Vol.70, pp: 201-214.
[8] Chen, Y.L., Chiang, H.H., Chiang, C.Y., Liu, C.M., Yuan, S.M. and Wang, J.H. (2012). A vision-based driver night-time assistance and surveillance system based on intelligent image sensing techniques and a heterogamous dual-core embedded system architecture, Sensors (Basel), Vol.12, No.3, pp:2373-2399.
[9] Zhang, W., Wu, Q.M.J., Wang, G. and You, X. (2012). Tracking and pairing vehicle headlight in night scenes, IEEE Transactions on Intelligent Transportation Systems, Vol.13, No.1.
[10] Tripathy, A.K., Kayande, D., George, J., John, J. and Jose, B. (2015). Wi lights - a wireless solution to control headlight intensity, International Conference on Technologies for Sustainable Development (ICTSD-2015), Feb. 04â€“06, 2015, Mumbai, India.
[11] Kiran, D.R. (2019). Chapter 1 - Elements of production planning and control, in Production Planning and Control. Butterworth-Heinemann.