Computer Aided Lifting Hook Modeling and Stress Analysis

Yusuf Aytaç Onur

doi:10.18185/erzifbed.371751

Research Article

Computer Aided Lifting Hook Modeling and Stress Analysis

Year 2018, Volume: 11 Issue: 2, 231 - 236, 31.08.2018

Yusuf Aytaç Onur

https://doi.org/10.18185/erzifbed.371751

Abstract

Lifting
hook is one of the important components used in materials handling systems for
safely transporting and lifting the loads. In this study, 3D modelling of a
lifting hook that has 40 kN lifting capacity specified in DIN 15400 and DIN
15401 standards and stress analyses of lifting hook model by using boundary
conditions have been performed. Critical points have been determined based on
stress analysis results. After critical points are determined curved beam
theory is used to calculate stresses on critical points of lifting hook. An
illustrative example has been given to compare the stress results obtained by
curved beam theory and finite element simulations.

Keywords

Lifting hook, CAD, Curved beam theory, Stress analysis, Lifting hook

References

Budynas, R., Nisbett, K. 2006. Shigley’s Mechanical Engineering Design, Eighth Edition, McGraw−Hill Primis, USA.
Devaraj, A. 2015. Design of a Crane Hook of Different Materials and Stress Analysis Using ANSYS Workbench. International Journal for Research in Applied Science & Engineering Technology, 3(7), 310-314.
DIN 15020-1, 1974. Lifting Appliances; Principles Relating to Rope Drives; Calculation and Construction, Deutsches Institut für Normung, Germany.
DIN 15400, 1990. Lifting hooks; Materilas, mechanical properties, lifting capacity and stresses, Deutsches Institut für Normung, Germany.
DIN 15401, 1983. Lifting hooks for lifting appliances; Single hooks; Finished parts with threaded shank, Deutsches Institut für Normung, Germany.
Fetvacı, M.C., Gerdemeli, İ., Erdil, A.B. 2006. Finite Element Modelling and Static Stress Analysis of Simple Hooks. TMT 2006 Conference, Spain, 797-800.
İmrak, C.E., Gerdemeli, İ., Fetvacı, C. 2005. Yük Kancasının Eğri Eksenli Çubuk Olarak Gerilme Analizi. Journal of the Faculty of Engineering and Architecture of Gazi University, 20(2), 217-223.
Krishnaveni, M.N.V., Reddy, M., Rajaroy, M. 2015. Static Analysis of Crane Hook with T-Section Using Ansys. International Journal of Engineering Trends and Technology, 25(1), 53-58.
Occupational Safety & Health Council Booklet, 2002. Safe Lifting.
Onur, Y.A. 2017. Investigation of effect of sling angle and size to the reliability of lifting hook. Simulation: Transactions of The Society for Modeling and Simulation International, https://doi.org/10.1177/0037549717744646.
Uddanwadiker, R. 2011. Stress Analysis of Crane Hook and Validation By Photo-Elasticity. Engineering, 3, 935-941.

Computer Aided Lifting Hook Modeling and Stress Analysis

Year 2018, Volume: 11 Issue: 2, 231 - 236, 31.08.2018

Yusuf Aytaç Onur

https://doi.org/10.18185/erzifbed.371751

Abstract

Yük kancaları, yüklerin
taşınması ve güvenli bir yük transportu için taşıma sistemlerinde kullanılan
önemli parçalardan biridir. Bu çalışmada, DIN 15400 ve DIN 15401
standartlarında tanımlanan, 40 kN kapasiteli bir yük kancasının üç boyutlu
modellenmesi ve sınır koşulları uygulanarak yük kancasının gerilme analizi
yapılmıştır. Gerilme analizi sonuçlarına dayanarak kritik noktalar
belirlendikten sonra yük kancası üzerindeki kritik noktalardaki gerilmeler eğri
eksenli çubuk teorisi kullanılarak hesaplanmıştır. Sonlu elemanlar simulasyonu
ve eğri eksenli çubuk teorisi kullanılarak elde edilen gerilmelerin
karşılaştırılabilmesi için açıklayıcı bir örnek sunulmuştur.

Keywords

BDT, Eğri eksenli çubuk teorisi, Gerilme analizi, Yük kancası

References

Budynas, R., Nisbett, K. 2006. Shigley’s Mechanical Engineering Design, Eighth Edition, McGraw−Hill Primis, USA.
Devaraj, A. 2015. Design of a Crane Hook of Different Materials and Stress Analysis Using ANSYS Workbench. International Journal for Research in Applied Science & Engineering Technology, 3(7), 310-314.
DIN 15020-1, 1974. Lifting Appliances; Principles Relating to Rope Drives; Calculation and Construction, Deutsches Institut für Normung, Germany.
DIN 15400, 1990. Lifting hooks; Materilas, mechanical properties, lifting capacity and stresses, Deutsches Institut für Normung, Germany.
DIN 15401, 1983. Lifting hooks for lifting appliances; Single hooks; Finished parts with threaded shank, Deutsches Institut für Normung, Germany.
Fetvacı, M.C., Gerdemeli, İ., Erdil, A.B. 2006. Finite Element Modelling and Static Stress Analysis of Simple Hooks. TMT 2006 Conference, Spain, 797-800.
İmrak, C.E., Gerdemeli, İ., Fetvacı, C. 2005. Yük Kancasının Eğri Eksenli Çubuk Olarak Gerilme Analizi. Journal of the Faculty of Engineering and Architecture of Gazi University, 20(2), 217-223.
Krishnaveni, M.N.V., Reddy, M., Rajaroy, M. 2015. Static Analysis of Crane Hook with T-Section Using Ansys. International Journal of Engineering Trends and Technology, 25(1), 53-58.
Occupational Safety & Health Council Booklet, 2002. Safe Lifting.
Onur, Y.A. 2017. Investigation of effect of sling angle and size to the reliability of lifting hook. Simulation: Transactions of The Society for Modeling and Simulation International, https://doi.org/10.1177/0037549717744646.
Uddanwadiker, R. 2011. Stress Analysis of Crane Hook and Validation By Photo-Elasticity. Engineering, 3, 935-941.

There are 11 citations in total.

Details

Primary Language	English
Subjects	Engineering
Journal Section	Makaleler
Authors	Yusuf Aytaç Onur 0000-0002-4122-0486
Publication Date	August 31, 2018
Published in Issue	Year 2018 Volume: 11 Issue: 2

Cite

APA	Onur, Y. A. (2018). Computer Aided Lifting Hook Modeling and Stress Analysis. Erzincan University Journal of Science and Technology, 11(2), 231-236. https://doi.org/10.18185/erzifbed.371751