Desain Bodi Sepeda Sepeda Motor Hybrid Tipe Skuter dengan Metode DFMA (Design for Manufacturing and Assembly)
DOI:
https://doi.org/10.31004/jutin.v9i2.56392Keywords:
Assembly Efficiency, Design for Manufacturing and Assembly (DFMA), Hybrid Motorcycle Design, Quality Function Deployment (QFD), Scooter Body ComponentAbstract
The rapid development of vehicle technology increases the demand for efficient and manufactured hybrid motorcycle designs. This study designed a scooter-type hybrid motorcycle body with DFMA method for production and assembly efficiency. The study begins with the identification of consumer needs through questionnaires, then converted into measurable specifications using QFD. This specification became the main foundation in the development of the body structure. The results showed that DFMA design provides advantages over those of custom body manufacturers. Although the duration of manufacturing in both methods is the same at five days, differences appear at the assembly stage. DFMA-designed bodies are assembled in 50 minutes, while custom products take 1 hour. Although the time difference is not drastic, the results prove that the implementation of DFMA successfully simplifies the component structure and speeds up the assembly workflow. Thus, the study concludes that the DFMA approach is a relevant strategy for designing hybrid vehicle components to reduce operational costs and increase productivity in automotive manufacturing assembly in the future.References
Anggadewi Laksita, & Sutantra I Nyoman. (2020). Perancangan dan Analisis Sistem Power dan Drivetrain pada Sepeda Motor Bertenaga Hybrid dengan Kapasitas 110 cc. JURNAL TEKNIK ITS, 9.
Darmana, T., Handayani, O., & Rusjdi, H. (2018). ANALISA PERBANDINGAN UNJUK KERJA PEMAKAIAN BAHAN BAKAR MOTOR KONVENSIONAL DENGAN MOTOR LISTRIK ULC PLN AREA CENGKARENG. JURNAL ENERGI & KELISTRIKAN, 10(1).
Dimitri, E. D., & Bahalwan, H. (2021). DESAIN SEPEDA MOTOR LISTRIK UNTUK MOBILITAS MASYARAKAT DI PERKOTAAN. FTSP ITATS.
Fahrudin, T. (2019). ANALASIS BODI PADA KENDARAAN BERMOTOR RODA DUA MENGGUNAKAN SIMULASI BERBASIS MATLAB R2019. Jurnal Baut Dan Manufaktur, 01(01).
Firmansyah Budi. (2010). ANALISA PENGGUNAAN-MOBIL HYBRID PROGRAM STUD I TEKNIK MESIN FAKUL T AS TEKNIK UNIVERSITAS MEDAN AREA ME DAN 2010. UNIVERSITAS MEDAN AREA.
Hanif, W., & Eko Setjiogiarto, N. (2022). Analisa Perbandingan Machining Time Toolpath Vortex dan Konvensional pada Proses CNC Milling. Prosiding Seminar Nasional Teknik Mesin Politeknik Negeri Jakarta, 682–688. http://prosiding.pnj.ac.id
Hetriana Tersa. (2015). PENGARUH PENDAPATAN MASYARAKAT TERHADAP KONSUMSI SEPEDA MOTOR DALAM PERSPEKTIF EKONOMI ISLAM (Studi Kasus Daerah Tanjung Enim). UIN RADEN FATAH PALEMBANG.
Lam Gwyndolyn. (2023). Pendekatan Concurrent Engineering pada Perancangan Produk Sepatu Tunanetra Menggunakan Metode Quality Function Deployment (QFD) dan Analysis Hierarchy Process (AHP). TALENTA Coference Series. https://doi.org/10.32734/ee.v6i1.1934
Nughroho Hengky S, Adhiharto Ricky, Setiawan Joko, & Jati Harvey Hutama. (2013). Analisis Perancangan Manufaktur dan Perakitan Untuk Karburator Sepeda Motor Matic. Proceeding Seminar Nasional Tahunan Teknik Mesin XII.
Pradipta Herrindra, R., Setiawan, S., & Wijaya, A. P. (n.d.). Desain Sepeda Motor Listrik untuk Aktivitas City Touring bagi Penggemar Sepeda Motor Bergaya Neo-Klasik. Jurnal Desain Indonesia, 5.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2026 Muhammad Ali Yafi, Andarmadi Jati Abdhi Wasesa
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
