UD. Sunarso Mebel is a business engaged in the furniture industry with management, including the design stage, material search, sawing, shrinking, sorting, and assembly for the final product of furniture. Production process for mortise and tenon joint on UD. Sunarso Mebel identified problems that could have been more productive. UD. Sunarso Mebel uses conventional tools that are ineffective, efficient, and interfere with worker comfort. Therefore, the fabrication of integrated tenon wood machines is needed, about actual needs and conditions.
The stages of this program include the formulation of the design, the tools' manufacturing stage, and the implementation stage. Using this integrated tenon wood machine increases the cutting speed of one wood couple to 10 seconds from the conventional method of 300 seconds. The stage of cutting one break that is needed is only one stage compared to the conventional method, which is three stages. The manufacturing capacity of furniture products has become nine times faster. Thus, these integrated tenon wood machines can increase the productivity of furniture products on UD. Sunarso Mebel. The ergonomics of integrated tenon wood machines are classified as low risk, so it is ready and safe for use.

Azwinur, & Muhazir. (2019). Pengaruh Jenis Elektroda Pengelasan SMAW Terhadap Sifat Mekanik Material SS400. Jurnal Polimesin, 17(1), 19–25.

Engler, N. (1992). Joining wood - Techniques for Better Woodworking. Rodale Press.

Fatimah. (2012). Penentuan Tingkat Resiko Kerja Dengan Menggunakan Score Reba. Industrial Engineering Journal, 1(1), 25–29. https://journal.unimal.ac.id/miej/article/viewFile/132/102

Forest Products Laboratory. (2010). Wood Handbook - Wood as an Engineering Material. https://doi.org/10.18260/1-2-1137-36433

Handayani, S. (2009). Metode Perekatan Dengan Lem Pada Sambungan Pelebaran Kayu. Jurnal Teknik Sipil Dan Perencanaan, 11(1), 11–20.

Hastuti, N., Efiyanti, L., Pari, G., Saepuloh, & Setiawan, D. (2017). Komponen Kimia dan Potensi Penggunaan Lima Jenis Kayu Kurang Dikenal Asal Jawa Barat. Jurnal Penelitian Hasil Hutan, 35(1), 15–27.

Joshi, M., & Deshpande, V. (2020). Investigative study and sensitivity analysis of Rapid Entire Body Assessment (REBA). International Journal of Industrial Ergonomics, 79(August), 103004. https://doi.org/10.1016/j.ergon.2020.103004

Mardikanto, T., Karlinasari, L., & Tri Bahtiar, E. (2011). Sifat Mekanis Kayu. IPB Press. http://katalog.perpustakaan.ipb.ac.id/senayan3-stable11/index.php?p=show_detail&id=114658

Maulana, A., Suryanto, P., Widiyatno, W., Faridah, E., & Suwignyo, B. (2019). Dinamika Suksesi Vegetasi pada Areal Pasca Perladangan Berpindah di Kalimantan Tengah. Jurnal Ilmu Kehutanan, 13(2), 181. https://doi.org/10.22146/jik.52433

Mott, R. L. (2004). Machine Elements in Mechanical Design (J. Tenthoff (ed.)). Pearson Prentice Hall. https://doi.org/10.1016/0301-679x(87)90097-1

Prasetyo, E., Hermawan, R., Ridho, M. N. I., Hajar, I. I., Hariri, H., & Pane, E. A. (2020). Analisis Kekuatan Rangka Pada Mesin Transverse Ducting Flange (TDF) Menggunakan Software Solidworks. Rekayasa, 13(3), 299–306. https://doi.org/10.21107/rekayasa.v13i3.8872

Soepomo, P. (2013). Sistem Pendukung Keputusan Penentuan Kualitas Kayu. Teknik Informatika STMIK Budi Darma Medan, 1(SPK), 327–337.

Wahyudi, I. (2013). Hubungan Struktur Anatomi Kayu Dengan Sifat Jayu, Kegunaan dan Pengolahannya. LitBang Anatomi Kayu Indonesia, 1–12. https://www.forda-mof.org/files/Imam_Wahyudi-IPB.pdf

Wibawa, L. A. N. (2019). Desain dan Analisis Kekuatan Rangka Meja Kerja (Workbench) Balai Lapan Garut Menggunakan Metode Elemen Hingga. Jurnal Teknik Mesin ITI, 3(1), 13. https://doi.org/10.31543/jtm.v3i1.216

Zhu, H., Zhu, W. D., & Fan, W. (2021). Dynamic modeling, simulation and experiment of power transmission belt drives: A systematic review. Journal of Sound and Vibration, 491, 115759. https://doi.org/10.1016/j.jsv.2020.115759