O. A. Gerashchenko scite author profile

O. A. Gerashchenko

5Publications

2Citation Statements Received

0Citation Statements Given

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Affiliations

Kyiv National University of Construction and Architecture, Institute of Engineering Thermophysics, Institute of Medical Polymers

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Nonlinear dynamic analisys of reservoir shell with modelled shape imperfections

Lukianchenko¹,

Gerashchenko²,

Paliy³

2022

OMTC

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The nonlinear dynamic analysis of imperfect reservoir shell with a variable thickness of wall under pressure was executed. The finite-element model of reservoir in the form of a cylindrical shell in the software NASTRAN was built. The shell wall in the form of the three-cornered finite-element net was presented. Shape imperfection as a lower buckling form of perfect shell (Buckling) was modelled. Value of amplitude of imperfection was set proportionally to a minimum thickness of shell wall. The limits on the radial and tangential displacements of top edge nodes were entered, the nodes of lower edge were fastened. Excitation as external pressure, which linearly depended on time and uniform distributed on all shell elements was presented. The modal analysis of shell with modelled shape imperfections by using computational procedure of task on natural vibrations (Normal Modes) by the Lanczos method was executed. The nonlinear dynamic analysis (Nonlinear Direct Transient) of imperfect reservoir shell under pressure by N’yumark method was executed. Influence of amplitude of modelled imperfection on the shell stress-strain for different time intervals of excitation, the conditionally critical values of dynamic loading and corresponding of shell deformation forms were investigated. It was discovered that a modelled shell shape imperfection as a lower buckling form of perfect shell under static pressure in the dynamic analysis of shell under the same type of the loading was effeсtive. Influence of modelled shape imperfections amplitude on the stress-strain state of shell for different time interval of excitation, the conditionally critical values of dynamic loading and appropriate forms of shell deformation was considerable. Presented imperfection model in the modal analysis of shell was not effective. The increase of amplitude of shell imperfection led to insignificant decrease of natural frequencies and amplitudes of appropriate natural forms with the same amount of the semiwaves in the circular direction. In our opinion presented model of shell shape imperfection can be effective in the modal analysis of shell with the stress-strain state from the previous action of static pressure and for the estimation of design reliability of reservoir shell in the case of the dynamic loadings using the Bolotin probabilistic approach.

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Local heat exchange of a single transversely bathed round tube with external circular fins

Legkii¹,

Zholudov²,

Gerashchenko³

1976

Journal of Engineering Physics

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Heat-flux transducers based on artificially anisotropic thermoelectric materials

Gerashchenko

Iordanishvili

Gudkin

et al. 1978

Journal of Engineering Physics

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Metrological interrelation for a gradient-type heatmeter under non-steady-state conditions

Gerashchenko

Cherin'ko

1980

Journal of Engineering Physics

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Determination of a group of thermophysical properties by a differential-bridge thermometric method

Gerashchenko

Grishchenko

Декуша

et al. 1988

Journal of Engineering Physics

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O. A. Gerashchenko

Nonlinear dynamic analisys of reservoir shell with modelled shape imperfections

Local heat exchange of a single transversely bathed round tube with external circular fins

Heat-flux transducers based on artificially anisotropic thermoelectric materials

Metrological interrelation for a gradient-type heatmeter under non-steady-state conditions

Determination of a group of thermophysical properties by a differential-bridge thermometric method

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