V. V. Chunin scite author profile

V. V. Chunin

4Publications

1Citation Statement Received

0Citation Statements Given

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Research and Design and Technological Institute of Rolling Stock

Publications

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The simulation of crack growth in rolling stock running wheel disk

Chunin

Knyazev

Timakov

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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The article reviews scientific and technical literature in the field of the survivability of railway wheels. The computer simulation of the flat crack growth at different temperatures is performed with the estimation of the crack propagation rate and survivability parameters. In conclusion, the estimation is provided to refine the calculation model, followed by the recalculation of the obtained results.

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Creating a strain-gauge wheel set model using software package «Universal mechanism»

Akashev

Savos’kin

Chunin

2022

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One of possible approaches to estimating the service life of a wheel set axle of high-speed rolling stock

Волохов¹,

Lunin²,

Knyazev³

et al. 2021

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Strength and life estimation for assigning the useful life of wheelpairs of high-speed flat wagons

et al. 2021

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Aim. The most vital unit of railway rolling stock is a wheelpair, as a broken wheel or axle may have catastrophic consequences. Therefore, before the production of a highspeed flat wagon designed for operation at speeds of up to 140 km/h, which is unique for the 1520 mm gauge space, could commence, it was required to research the applicability of the standard wheelpair for high-speed movement. Ensuring the safe operation of a wheelpair involves compliance with the requirements that are to be confirmed by means of assessment of strength and durability parameters [1]. Product conformity assessment may be based on the requirements of standards, whose voluntary fulfilment ensures compliance with [1], or other documents. Methods. The paper describes the computational and experimental methods used for confirming the strength and estimating the life (durability) of wheelpair elements in the probabilistic setting. As experimental data, the authors used the results of full-scale bench testing of wheelpairs for fatigue using the method of rotational bending as it best approximates the loading conditions in operation. The results confirmed the endurance limits of the axle and wheel as parts of an assembled wheelpair. Using design analysis, the authors examined the stress-strain state of the wheelpair caused by installation and operational loads in various running modes. Results. The conducted studies confirmed the wheelpair’s compliance with the requirements of [1–3] in terms of safety factors of fatigue strength and endurance, which eliminates the possibility of hazardous situations in the course of high-speed flat wagon operation. The time to fatigue crack nucleation in wheelpair components was evaluated using the fatigue resistance figures of the parts and equivalent amplitudes of dynamic stress caused by operational loads. It appears that this assessment allows establishing – with the assumed probability of destruction – the assigned useful life of a wheelpair axle at 32 years, which corresponds to the assigned useful life of the flat wagon according to the combined criterion. Corresponding standards and regulations required for developing the container-carrying flat wagon are being updated and a new State Standard is being developed. Conclusion. The conducted conformity assessment established that the flat wagon wheelpair meets the safety requirements of [1] and ensures the absence of unacceptable risks associated with harm to life and health of people, animals and plants, the environment and property of individuals and companies in the course of flat wagon operation.

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V. V. Chunin

The simulation of crack growth in rolling stock running wheel disk

Creating a strain-gauge wheel set model using software package «Universal mechanism»

One of possible approaches to estimating the service life of a wheel set axle of high-speed rolling stock

Strength and life estimation for assigning the useful life of wheelpairs of high-speed flat wagons

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