Due to urbanization, it is difficult to secure a large knuckle crane workspace. To solve this problem, we developed a small knuckle crane combined with a one-ton truck. In this study, the safety of small knuckle cranes is evaluated through Finite Element Analysis. Shape optimization was performed using the Design of Experiment for parts speculated to have failed from fatigue. As a result, maximum equivalent stress of a plate in link speculated to have failed from fatigue was reduced by approximately 84.2%.
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Optimal Design of 50 ton Hydraulic Breaker Housing Jai Hak Lee, Dong Ju Lee, Jun Young Choi Journal of the Korean Society for Precision Engineering.2022; 39(4): 269. CrossRef
Due to urbanization, parameters such as large size and height constrain the workspace of aerial lift truck. An aerial lift truck with reduced height was developed to decrease the telescopic boom. Based on FEM Analysis, the failure was localized to the shaft of the boom joint. Shape optimization was performed using the Design of Experiment based on three design factors. As a result, the maximum equivalent stress of boom joint was reduced by about 32.33%.
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Citations to this article as recorded by
Optimal Design of 50 ton Hydraulic Breaker Housing Jai Hak Lee, Dong Ju Lee, Jun Young Choi Journal of the Korean Society for Precision Engineering.2022; 39(4): 269. CrossRef
A Study on Structural Analysis for Stability Evaluation According
to Design Parameters of a Fire Ladder Vehicle Hoon Jung, Cheol-Jung Kim, Hong-Gun Kim Journal of the Korean Society of Manufacturing Process Engineers.2020; 19(8): 64. CrossRef
Optimal Design of Boom for Telescopic Boom Type Forklift Truck Jai Hak Lee, Kang Su Kim Journal of the Korean Society for Precision Engineering.2020; 37(6): 457. CrossRef
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