Asymptotic method for investigating resonant regimes of nonlinear bending vibrations of elastic shaft

Пукач, Петро; Kuzio, Igor; Nytrebych, Zinovii; Ільків, В. С.

doi:10.29202/nvngu/2018-1/9

Cited by 18 publications

(10 citation statements)

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“…There are various approaches to solve the task partially, in particular, experimental, analog, or mathematical modeling of the process, etc. However, experimental or bench studies [4,5] which are related to the separate influence of certain force factors on the dynamics of the sprung mass (SM) with a nonlinear force characteristic of the suspension system (SS), provided the purity of the experiment, can not answer the question of their compatible impact. This is because there is no superposition principle for nonlinear systems.…”

Section: Research Statementmentioning

confidence: 99%

The influence of degree of loading and load placing on steerability of vehicles

Kuzio¹,

Сокіл²

2021

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The methodology of research of the influence of the degree of loading, kinematic parameters of movement, and nonlinear power characteristics of elastic elements and shock-absorbers of the suspension system on their steerability on curved sections of the road is developed. The research is based on the equation of kinetostatics of the system of sprung-unsprung part and differential equations that relate the motion of the sprung part of vehicles. Concerning the last, they take into account both loading of a vehicle and nonlinear-elastic characteristics of shock-absorbers. For the case when elastic characteristics of shock-absorbers are described by degree or close to it dependence, the fluctuation of sprung part is described analytically. Their peculiarity is that the frequency and therefore dynamic force of wheels pressure on the bearing surface (road) depends on the amplitude. It is the last value and characteristics of the road surface that determine the main parameters of steerability and stability of the movement of wheeled vehicles along curved sections of the road. Taken together, the mentioned above allowed to obtain the dependence of the critical value of the dynamic angle of rotation of the steered wheels, as a function of the amplitude of longitudinal-angular oscillations, kinematic motion parameters, and the level of loading of a vehicle. It is established: - fluctuation of the sprung part significantly reduce the value of the limiting angle of rotation of the steered wheels along the curved sections of the road; - for the period of acceleration of the vehicle and the closer location of the center of gravity of the cargo transported to the tailgate, the limit value of the dynamic angle of rotation of the steered wheels is less; - the suspension system with the progressive law of change of regenerative force of elastic shock-absorbers in a wider range of change fluctuations amplitude of the suspended part satisfies ergonomic conditions of transportation. The obtained calculated dependencies can simultaneously be basic during the modernization of existing or the creation of new suspension systems in order to improve the main operation characteristics of wheeled vehicles

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Section: Research Statementmentioning

confidence: 99%

The influence of degree of loading and load placing on steerability of vehicles

Kuzio¹,

Сокіл²

2021

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“…Practice shows [1,6,28] that in the mechanical complex "carriagerail track" reliability and durability indicators significantly depend on the processes peculiar properties of interaction between the track and the rolling stock, especially the operating conditions of the system. In addition, this interaction affects the ability of the system to withstand the destructive action of the resulting shock loads [24,29]. To simulate the interaction between the rolling stock and the track, there is need a to solve several related problems particularly static and shock ones.…”

Section: Analasis Of Literature Data and Task Statementmentioning

confidence: 99%

“…Here the efficiency and reliability of the track design are crucial for a successful operation. A lot of modern rail track studies focus on individual aspects of design and operation, such as fatigue [21,24], ballast failure [9], driving comfort [31], noise or vibration [8,12,13,30].…”

Section: Recent Research Analysismentioning

confidence: 99%

Simulation of Impact Interaction of Rail Transport Carriage in a Butt Roughness Zone

Shpachuk¹,

Chuprynin²,

Daleka³

et al. 2020

SJSUT.ST

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Mechanical and mathematical models of mechanical multidimensional discrete-continuous systems "carriagetrack" in terms of static and impact interaction in a butt roughness zone are proposed. Their interaction is investigated with the example of a four-axle car and a track for four motion phases in the place of isolated butt roughness. Parameters of static and impact interaction of the carriage with a track in a place of butt joint which takes into account operational and constructive factors are defined.

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“…Often used in this case is the probabilistic model to extract hidden attributes from elements [44]. By employing hidden functions, they generate accurate pseudo-ratings, even under a situation of cold start when there are few estimates, or not at all [45]. Another example of solving it is the combination of CF and CBF [46].…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%