Y. Slavchev scite author profile

Abstract. Simplified models are used in the classical engineering analyses of the friction brake heating temperature during repetitive cycles of operation to determine basically the maximum and minimum brake temperatures. The objective of the present work is to broaden and complement the possibilities for research through a model that is based on the classical scheme of the Newton's law of cooling and improves the studies by adding a disturbance function for a corresponding braking process. A general case of braking in non-periodic repetitive mode is considered, for which a piecewise function is defined to apply pulse thermal loads to the system. Cases with rectangular and triangular waveforms are presented. Periodic repetitive braking process is also studied using a periodic rectangular waveform until a steady thermal state is achieved. Different numerical methods such as the Euler's method, the classical fourth order Runge-Kutta (RK4) and the Runge-Kutta-Fehlberg 4-5 (RKF45) are used to solve the non-linear differential equation of the model. The constructed model allows during pre-engineering calculations to be determined effectively the time for reaching the steady thermal state of the brake, to be simulated actual braking modes in vehicles and material handling machines, and to be accounted for the thermal impact when performing fatigue calculations.

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Coupled Mechanical-Electric Analysis of Hemi-Spherical Bodies in Hertzian Contact

Slavchev

Tzeneva

Mateev

2020

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Influence of Vertical Loadings on Elastic System Response

Slavchev¹,

Venkov²,

Pasheva³

et al. 2010

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Finite Element Analysis of a Wind Turbine Response when the Tower and the Blades are Modeled as Distributed Parameter Systems

Pasheva¹,

Slavchev²,

Venkov³

2011

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Y. Slavchev

Modeling and Control of Wind Turbine Tower Vibrations

Research on transient thermal process of a friction brake during repetitive cycles of operation

Coupled Mechanical-Electric Analysis of Hemi-Spherical Bodies in Hertzian Contact

Influence of Vertical Loadings on Elastic System Response

Finite Element Analysis of a Wind Turbine Response when the Tower and the Blades are Modeled as Distributed Parameter Systems

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