TY - GEN
T1 - A quick-release hanging hook design and 3D printing
AU - Ramadani, Desinta Dewi
AU - Akbar, Mohammad Bayu Nur
AU - Angelica, Putri
AU - Saptaji, Kushendarsyah
AU - Chan, Cho Lik
AU - Triawan, Farid
N1 - Publisher Copyright:
© 2023 Author(s).
PY - 2023/4/27
Y1 - 2023/4/27
N2 - Innovative and efficient are the goal of all products made by humans. In addition to innovative designs, the ease with which users can use the product is an essential aspect of a product design. This paper reports the work of a group of undergraduate student project in additive manufacturing course. The aim of the project is to produce a hook prototype that can be used on a pegboard located at the ceiling. The hook is expected can be installed and removed easily from the bottom of the pegboard with hole diameter of 12.7 mm and thickness of 6.35 mm and able to carry a 7 kg load. In this paper, the hook is designed and simulated using SolidWorks software, printed using the FDM 3D printing machine, and tested with a 7 kg hanging load. The finite element simulation shows the proposed design is able to hold the required 7 kg load. The ease installation and removal of the 3D printed hanging hook is also can be fulfilled. The finite element simulation is also validated by applying 7 kg load onto the hanging hook. Hence the proposed design can accomplish the requirements of the project.
AB - Innovative and efficient are the goal of all products made by humans. In addition to innovative designs, the ease with which users can use the product is an essential aspect of a product design. This paper reports the work of a group of undergraduate student project in additive manufacturing course. The aim of the project is to produce a hook prototype that can be used on a pegboard located at the ceiling. The hook is expected can be installed and removed easily from the bottom of the pegboard with hole diameter of 12.7 mm and thickness of 6.35 mm and able to carry a 7 kg load. In this paper, the hook is designed and simulated using SolidWorks software, printed using the FDM 3D printing machine, and tested with a 7 kg hanging load. The finite element simulation shows the proposed design is able to hold the required 7 kg load. The ease installation and removal of the 3D printed hanging hook is also can be fulfilled. The finite element simulation is also validated by applying 7 kg load onto the hanging hook. Hence the proposed design can accomplish the requirements of the project.
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U2 - 10.1063/5.0112706
DO - 10.1063/5.0112706
M3 - Conference contribution
AN - SCOPUS:85159792585
T3 - AIP Conference Proceedings
BT - Proceedings of the Symposium on Advance of Sustainable Engineering 2021, SIMASE 2021
A2 - Abdullah, Ade Gafar
A2 - Nugroho, Astri Rinanti
A2 - Miharja, Deni
A2 - Rohadi, Erfan
A2 - Triawan, Farid
A2 - Helios, Muhammad Penta
A2 - Aji, Sudi Dul
PB - American Institute of Physics Inc.
T2 - Symposium on Advance of Sustainable Engineering 2021: Post Covid-19 Pandemic: Challenges and Opportunities in Environment, Science, and Engineering Research, SIMASE 2021
Y2 - 18 August 2021 through 19 August 2021
ER -