10.22190/FUWLEP1702139J

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Accidental actions caused by vibrations of supporting structures in mechanical systems represent the dynamic tasks of specific scientific and professional research in the field of human and equipment safety. This paper determines the mathematical model of physical excitation force created by   human power, based on the discrete-time Fourier transformation. For experimental verification of the model, we made a special platform for measuring bouncing force of people who create natural impulse oscillation. The paper shows the results of individual and group experimental testing of living force as the cause of accidents and dangerous effects on the structure. In the end, the excitation of the human operation of a malicious nature (heavy transport machine – crane) has been used to show the application of Fourier model to simulate one incident. For this purpose, the transient FEM analysis and the eigenvalues predetermined modal analysis are used. The paper is illustrated with photographs of experimental tests of dangerous human impulse in several working machines (objects).

accident, living human force, modelling, transient and modal analysis, vibration

Jovanović M., (1990), Supporting structure level luffing system and driving mechanisms resistance of portal-jib cranes optimization, University of Niš, Faculty of Mechanical Engineering, Doctor’s work.

Jovanović M., Mijajlović D., Petković Lj. and Jovanović J., (2000), Deseleration time of vibration-parameter of geometric supporting structures synthesis, Int. Conf. “Noise and Vibration”, University of Niš, Faculty of Occupational Safety.

Jovanović M. and Radoičić G., (2014), Dynamical response of structures to malicious and random actions, The 5th Int. Conf. “Transport and Logistics – TIL 2014”, Niš, 5th-6th June 2014, pp. 51-54.

Jovanović M., Radoičić G. and Milić P., (2009), Dynamic sensitivity research of portal-rotating cranes, XIX Int. Conf. on “Material Handling, Constructions and Logistics – MHCL’09”, Belgrade, 15th-16th October 2009, pp. 61-66.

British Standards Institution, BS 6399-1:1996, Loading for buildings, British Standard Inst., 1996.

Littler J.D., (2003), Frequencies of synchronized human loading from jumping and stamping, The Structural Engineer, Vol. 22, pp. 27-35, 2003.

Sahnaci S. and Kasperski M., (2005), Random loads induced by walking, Structural Dynamics, EURODIN-2005, Vol. 1, pp. 441-446, Millpress, Rotterdam 2005.

Behnia A., Beng Hong A.K., Shabazi M.M., Ranjbar N., Behnia N. and Vafaei M.R., (2013), Finite element analysis of high modal dynamic responses of a composite floor subjected to human motion under passive live load, LA Journal of Solids and Structures, Vol. 10, No. 3, pp. 601-630, 2013.

Vakulenko S.A. and Cherkai M.V., (2010), Destruction of dissipative structures under random actions, Theoretical and Mathematical Physics, Vol. 165, Issue 1, pp. 1387-1399, 2010.

De Silva S.S. and Thambiratnam D.P., (2009), Dynamic characteristics of steel–deck composite floors under human-induced loads, Computers & Structures, Vol. 87, Issues 17–18, pp. 1067–1076, 2009.

Jovanović M. and Radoičić G., (2015), Experimental research of dynamical live-load on the platform in company Mediana-Niš, Faculty of Mechnical Engineering Niš, Internal report of the Project TR35049.

Jovanović M., Radoičić G., Jovanović V. and Tomić V., (2015), Synchronic excitation – a type of malicious dynamic action, XXI Int. Conf. on “Material Handling, Constructions and Logistics – MHCL’15”, Vienna, 23th-35th September 2015, pp. 207-210.