In the industrial world, companies are required to be more effective and creative with the development of today's technology. Transverse ducting flange (TDF) machine is a machine that functions to make ducting flange products and form ducting connections, where there are several components in large quantities, so the design of the frame construction made must be strong to support these components. Responding to the cases that occurred, with the aims and objectives of this study, namely to determine the level of efficiency in the use of the design on a hollow galvanized steel frame measuring (100 × 50 × 3,2) mm, by performing simulations using SolidWorks Premium 2019 software with static analysis features. using the finite element method. So with this research, we can find out whether the frame is receiving loads that exceed the yield strength limit or vice versa. The results of the research are three load-bearing areas received, with load values in a row, namely 11693,809 N, 266 N, and 598,206 N. From the results of the three, it shows that the design of the frame construction that has been made is safe to use, because the calculation of the analysis meets the value requirements safety factor and the maximum stress simulation that occurs does not exceed the yield strength limit of the frame material.

Abidin, Z., & Rama, B. (2015). Analisa distribusi tegangan dan defleksi connecting rod sepeda motor 100 cc menggunakan metode elemen hingga. Jurnal Rekayasa Mesin Universitas Sriwijaya, 15(1), 30–39.

Adriana, M., B.P, A. A., & Masrianor, M. (2017). Rancang bangun rangka (chasis) mobil listrik roda tiga kapasitas satu orang. Jurnal Elemen, 2(4), 129–133. https://doi.org/10.34128/je.v4i2.64.

Akin, J. E. 2010. Finite element analysis concepts: via solidworks, 2010 ed. World Scientific.

Fitriana, N. (2019). Implementasi desain ‘name board’ desa wisata jambu gondangmanis kabupaten jombang. Jurnal Pengabdian Masyarakat Progresif Humanis Brainstorming, 2(1), 44–52. https://doi.org/10.30591/japhb.v2i1.1288.

Groover, M. 2010. Fundementals of modern manufacturing materials, processes and systems. John Wiley & Sons 493.

Husodo, B. Y., & Siagian, N. A. (2014). Analisa audit konsumsi energi sistem hvac (heating, ventilasi, air conditioning) di terminal 1a, 1b, dan 1c bandara soekarno-hatta. Jurnal Teknologi Elektro, 5(1), 49–58. https://doi.org/10.22441/jte.v5i1.761.

Komara, A. I. (2020). Perancangan ulang machining fixture untuk produk cylinder head dan cover crankcase tipe 168. Machine : Jurnal Teknik Mesin, 6(1), 1–7. https://doi.org/10.33019/jm.v6i1.1367.

Munir, M. M., Qomaruddin, Q., & Winarso, R. (2019). Perancangan dan simulasi punch mesin pres batako. Jurnal Crankshaft, 3(2), 1–6. https://doi.org/10.24176/crankshaft.v2i1.3096.

Nugroho, C. B. (2015). Analisa kekuatan rangka pada traktor ( force analysis frame on tractor ). Jurnal Integrasi, 7(2), 104–107.

Ramadhanis, M. (2019). Perencanaan ducting pada gedung serbaguna. Jurnal PETRA, 6(1), 1–9.

Sunarto, S., Sisworo, S., & Prasojo, A. Z. (2018). Rancang bangun mesin roll bending pipa evaporator freezer kapal dengan motor listrik 1 hp. Jurnal Rekayasa Mesin, 105-108.

https://doi.org/10.32497/rm.v13i3.1280.

Wibawa, L. A. N., Desain, ;, Kekuatan, A., Tempat, R., Di Balai, S., Garut, L., Metode, M., Hingga, E., Ari, L., Wibawa, N., Teknologi, B. U., Antariksa, P., Atmosfer, D., Penerbangan, L., & Nasional, A. (2018). Desain dan analisis kekuatan rangka tempat sampah di balai lapan garut menggunakan metode elemen hingga. Jurnal Teknik Mesin, 1(2), 64–68.

Wibawa, L. A. N. (2019). Desain dan analisis kekuatan rangka lemari perkakas di balai lapan garut menggunakan metode elemen hingga. Machine : Jurnal Teknik Mesin, 2(5), 45–50. https://doi.org/10.33019/jm.v5i2.787.

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), 13-17. https://doi.org/10.31543/jtm.v3i1.216.

Wibowo, T. A., Raharjo, W. P., & Kusharjanta, B. (2014). Perancangan dan analisis kekuatan konstruksi mesin tekuk plat hidrolik. Mekanika, 12(2), 63-70.