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ANALYSIS OF THE STATIC BEHAVIOR OF THE SHAFT BASED ON FINITE ELEMENT METHOD UNDER EFFECT OF DIFFERENT VARIANTS OF LOAD
Authors:
Aleksandar Ašonja1
, Eleonora Desnica2, Ivan Palinkaš2
1Faculty of Economics and Engineering Management in Novi Sad, University Business Academy in Novi Sad,Serbia
2University of Novi Sad, Technical Faculty ″Mihajlo Pupin″, Department of Mechanical Engineering, Zrenjanin, Serbia
Received: 09 February 2016
Accepted: 28 February 2016
Available online: 30 June 2016
Abstract:
By using the method of finite elements and starting with the possibilities given by the program system ANSYS in the field of application, research has been performed regarding the analysis of static behavior of a centrifugal pump shaft. The computational analysis of static behavior of shaft using the method of finite elements on the examined model during the phase of projecting, was aiming for a timely sighting of critical spots, in order to avoid possible further malfunction. In this way it is possible to examine validity of the basic solution with no need for making the prototypes. By static behavior analysis, in other words, using the method of finite elements it was shown to which extent can certain conditions of exploitation, created tensions, that is shifted knots, cause difficulties in the whole model performance. Analysis of the static behavior of shaft was performed for two cases with different load: the effect of radial force and the torsion moment. A special attention was given to modelling of rolling-element bearings and following of their condition in relation to outside influences.
Keywords:
FEM analysis, shaft, load tension, model
References:
[1] E. Oñate, (2009), Structural Analysis with the Finite Element Method. Linear Statics: Basis and Solids, Springer Science & Business Media. 1 (2009) p.1.
[2] K. Čapo, D. Živojinović, The computer analysis of torsional bend spring flexure estimate, Tehnička dijagnostika. 13 (2014) 42-51.
[3] I. Palinkaš, A. Ašonja, E. Desnica, J. Pekez, Application of computer technologies (cad/cam systems) for quality improvement of education, ANNALS of Faculty Engineering Hunedoara – International Journal of Engineering. XIV (2016) 179-184.
[4] D. Letić, B. Davidović, B. Radulović, I. Berković, E. Desnica, The high – performance algorithm of the computer methods at the establishing of the states of stress of the brake mechanism by the finite element method (FEM), Metalurgija. 51 (2012) 513– 517.
[5] A. Ašonja, R. Gligorić, The Calculate Analysis of Static Behaviour of Pump Shaft, Proceedings from 9th International research/expert conference – “Trends in the development of machinery and associated technology” (TMT 2005), 26-30 September, 2005, Antalya, Turkey
[6] A. Ašonja, Z. Milojević S. Navalušić, Static Behaviour Analysis of Centrifugal Pump Shaft, Trac. and Pow. Mach., 9 (2004) 76-81.
[7] A. Ašonja, E. Desnica, Research into reliability of agriculture universal joint shafts based on temperature measuring in universal joint bearing assemblies, Span J Agric Res. 13 (2015) 1-8.
[8] A. Ašonja, Ž. Adamović, N. Jevtić, Analysis of Relyability of Cardan Shafts Based on Condition Diagnostics of Bearing Assembly in Cardan Joints, Journal Metalurgia International. 18 (2013) 216-221.
[9] E. Desnica A. Ašonja, D. Mikić, B. Stojanović, Reliability of model of bearing assembly on an agricultural of Cardan shaft, J. Balkan Tibological Association. 21 (2015) 38-48.
[10]A. Ašonja, S. Cvetković, D. Mikić, Testing of Cardan Shaft Operating Realibility in Agricultural, Tehnička dijagnostika. 12 (2013) 12-19.
[11]L. Ivanović, D. Josifović, K. Živković, B. Stojanović, Cross shaft design from the aspect of capacity. Scientific Technical Review, 61 (2011) 56-62.
[12]Z. Đorđević, M. Blagojević, S. Jovanović, S. Vulović, Analysis of the influence of the fibre type on static and dynamic characteristics of composite shafts, Scientific Technical Review. 61 (2011) 35-40.
[13]Z. Đorđević, S. Maksimović, I. Ilić, Dynamic analysis of hybrid aluminum-composite shafts, Scientific Technical Review, 58 (2008), 3-7.
[14]D. Schillinger, M. Ruess, The Finite Cell Method: A Review in the Context of HigherOrder Structural Analysis of CAD and ImageBased Geometric Models, Arch Comput Methods Eng, 22 (2015) 391-455.
[15]D. Letić E. Desnica B. Davidović, AutoCAD Mechanical 2011, Kompjuter biblioteka, Čačak, 2011, p.17.
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0)
Volume 10
Number 4
December 2025
Last Edition
Volume 10
Number 4
December 2025
How to Cite
A. Ašonja, E. Desnica, I. Palinkaš, Analysis of the Static Behavior of the Shaft Based on Finite Element Method Under Effect of Different Variants of Load. Applied Engineering Letters, 1(1), 2016: 8-15.
More Citation Formats
Ašonja, A., Desnica, E., & Palinkaš, I. (2016). Analysis of the Static Behavior of the Shaft Based on Finite Element Method Under Effect of Different Variants of Load. Applied Engineering Letters, 1(1), 8-15.
Ašonja, Aleksandar, et al. “Analysis of the Static Behavior of the Shaft Based on Finite Element Method Under Effect of Different Variants of Load.“ Applied Engineering Letters, vol. 1, no. 1, 2016, pp. 8-15.
Ašonja, Aleksandar, Eleonora Desnica, and Ivan Palinkaš. 2016. “Analysis of the Static Behavior of the Shaft Based on Finite Element Method Under Effect of Different Variants of Load.“ Applied Engineering Letters, 1 (1): 8-15.
šonja, A., Desnica, E. and Palinkaš, I. (2016). Analysis of the Static Behavior of the Shaft Based on Finite Element Method Under Effect of Different Variants of Load. Applied Engineering Letters, 1(1), pp. 8-15.
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ANALYSIS OF THE STATIC BEHAVIOR OF THE SHAFT BASED ON FINITE ELEMENT METHOD UNDER EFFECT OF DIFFERENT VARIANTS OF LOAD
Authors:
Aleksandar Ašonja1
, Eleonora Desnica2, Ivan Palinkaš2
1Faculty of Economics and Engineering Management in Novi Sad, University Business Academy in Novi Sad,Serbia
2University of Novi Sad, Technical Faculty ″Mihajlo Pupin″, Department of Mechanical Engineering, Zrenjanin, Serbia
Received: 09.02.2016.
Accepted: 28.02.2016.
Available online: 30.06.2016.
Abstract:
By using the method of finite elements and starting with the possibilities given by the program system ANSYS in the field of application, research has been performed regarding the analysis of static behavior of a centrifugal pump shaft. The computational analysis of static behavior of shaft using the method of finite elements on the examined model during the phase of projecting, was aiming for a timely sighting of critical spots, in order to avoid possible further malfunction. In this way it is possible to examine validity of the basic solution with no need for making the prototypes. By static behavior analysis, in other words, using the method of finite elements it was shown to which extent can certain conditions of exploitation, created tensions, that is shifted knots, cause difficulties in the whole model performance. Analysis of the static behavior of shaft was performed for two cases with different load: the effect of radial force and the torsion moment. A special attention was given to modelling of rolling-element bearings and following of their condition in relation to outside influences.
Keywords:
FEM analysis, shaft, load tension, model
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0)
Volume 10
Number 4
December 2025
Last Edition
Volume 10
Number 4
December 2025