Analisis Deformation, Stress, dan Safety Factor pada Geometric Properties Crane Hook

Johan Wayan Dika, Abi Suwito, Sunardi Sunardi, Titik Sugiarti


Crane hook strength analysis is an effort to minimize accidents and work failures when used in moving goods that tend to have heavy loads. Apart from that, the analysis is also used as a benchmark for the crane hook safety level which can be identified through the accompanying structures. This study aims to determine the strength of the crane hook with various geometric shapes and sizes, namely the ST E 355 crane hook with the DIN 15401 standard, hereinafter referred to as the original size and half of the original size. The strength in question consists of deformation, stress and safety factor. This research begins with the design process using an autodesk inventor, then proceeds to the simulation and analysis process through ANSYS. The results obtained are the crane hook with the original size has the best strength. This is indicated by a small deformation with a value of 0.82214 mm, a low stress value of 264.14 Mpa, and a high safety factor with a value of 2.668903.


Crane hook, Deformation, Stress, Safety Factor

Full Text:



A. Kurniawan, “Analisa Kekuatan Struktur Crane Hook Dengan Perangkat Lunak Elemen Hingga Untuk Pembebanan 20 Ton,” Universitas Bengkulu, 2014.

N. Rudenko, Mesin Pengangkat. Jakarta: Erlangga, 1964.

G. Pavlović, et al., “Analysis and optimization of T-cross section of crane hook considered as a curved beam.,” IMK-14-Istrazivanje i Razvoj., 2018.

L. Leopardi and A. Strozzi, “Two extensions towards practical applications of a paradox in curved beams.,” Procedia CIRP, vol. 84, pp. 761–768.

T. P. Jani, P. G. Biholarav, and N. R. Solanki, “Weight Optimization Of Crane Hook Having 8tons Force Capacity By Modifying Cross Section And Comparison With Various Basic Cross Sections,” Int. J. Innov. Res. Adv. Eng., vol. 4, no. 2, 2015.

M. N. V. Krishnaveni, M. A. Reddy, and M. Rajaroy, “Static analysis of crane hook with t-section using ANSYS,” Int. J. Eng. Trends Technol., vol. 25, no. 1, pp. 53–58, 2015.

S. A. Mehendale and S. R. Wankhade, “Design and analysis of EOT crane hook for various cross sections,” Int. J. Curr. Eng. Sci. Res, vol. 3, no. 12, pp. 53-58., 2016.

M. Shaban, et al., “Determination of Stress Distribution in Crane Hook by Caustic,” Int. J. Innov. Res. Sci. Eng. Technol., vol. 2, no. 5, 2013.

A. Singh and V. Rohilla, “Optimization and Fatigue Analysisof a Crane Hook Using Finite Element Method,” Int. J. Recent Adv. Mech. Eng., vol. 4, pp. 31–43, 2015.

R. Taralele, et al., “Structural And Modal Analysis Of Crane Hook With Different Materials Using FEA,” Int. Res. J. Eng. Technol., vol. 4, no. 6, 2017.



  • There are currently no refbacks.


University of Merdeka Malang

Mailing Address:

Jalan Terusan Dieng 62-64 Malang, 65146, East Java, Indonesia
Phone: 085107636279 Fax: (0341) 560836