I. N. Aliev scite author profile

I. N. Aliev

5Publications

11Citation Statements Received

2Citation Statements Given

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Bauman Moscow State Technical University, Lomonosov Moscow State University

Publications

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An Experimental Investigation of the Elastic Dynamic Characteristics of a Model of an Ampoule for the Space Transportation of Radioactive Wastes at High Temperatures

et al. 2015

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The dynamic elastic characteristics of an experimental physical model of an ampoule for the space transportation of radioactive wastes in the self-delivery mode, i.e., when the wastes are the primary energy source, are described. An experimental system is designed to investigate the characteristics of the model of the ampoule, and a procedure for investigating both the cold and heat-stressed state of the ampoule is developed. The amplitude-frequency characteristics of the ampoule model are obtained for different temperature situations.Considerable attention is being devoted at the present time to the problems involved in the space disposal of radioactive wastes [1][2][3]. This involves the problem of designing the spacecraft, constructionally arranged and constructionally strong systems, and the mechanical and dynamic characteristics of both the apparatus as a whole and of its components and aggregates. An investigation of the situations in which the radioactive wastes play the role of the primary energy source, providing the transport operations in the cosmos (the self-delivery mode) is particularly important [4][5]. The radioactive decay energy is converted into electrical energy and supplied to an electro-rocket motor of the spacecraft. In this case, the temperature conditions of the ampoule (as a source of energy) determine the efficiency of the structure not only from the point of view of its efficiency, but also from the point of view of its mechanical and dynamic characteristics (thermal strength, the oscillation spectrum and the forms of the frequencies), which have a considerable influence on the construction of the spacecraft as a whole. Hence, an investigation of the dynamic elastic characteristics of the ampoule with the radioactive wastes at increased temperatures becomes the new urgent problem when designing the spacecraft.Experimental System for Investigating the Model of the Ampoule in Cold and Thermally Stressed States. To investigate the elastic dynamic characteristics (EDC) of the cold state (the temperature of the ampoule walls is 293 K) and in the thermally stressed state (373-503 K) of the ampoule with the radioactive wastes, we developed a dynamic system ( Fig. 1) with different diagnostic equipment.The dynamic arrangement consists of the following: a Signal Star Vector II system for controlling the vibrational loads [6], which includes a personal computer (PC) using ABAQUS software, a generator and signal processing apparatus, a signal amplifier, a set of measuring and master sensors, a GW-V55/PA300E electrodynamic force exciter and a system for cooling it, and an emergency shutoff unit.

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Dissipative spinodal decomposition in systems with nonreciprocal effective interactions

Kryuchkov

Mistryukova

Aliev

et al. 2018

J. Phys.: Conf. Ser.

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Nonlinear waves propagating over a conducting ideal fluid surface in an electric field

Aliev¹,

Yurchenko²

2009

Fluid Dyn

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Evolution of perturbations of a charged interface between immiscible inviscid fluids in the interelectrode gap

Aliev¹,

Yurchenko²

2010

Fluid Dyn

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Efficient approach to calculating radial distribution function in bcc Fe lattice

Mistryukova

Kryuchkov

Aliev

et al. 2020

J. Phys.: Conf. Ser.

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Many properties of condensed matter systems can be described by means of pair correlation functions that makes them an important structural characteristic. The shortest-graph interpolation method allows us to calculate pair correlation functions of classical crystals with pairwise interactions between particles. However, there is still no just so simple and practical approach to predict correlation functions in crystals with many-body interactions that are ubiquitous in nature. In this work, a simple modification of the interpolation method is suggested allowing to describe pair correlations bcc Fe lattice, considered as a classical crystal with many-body interactions of embedded atom model type. It is shown that the radial distribution function of the crystal can be calculated with high accuracy if mean square displacements are known. The obtained results would be useful in various fields of condensed matter physics, materials science, and crystallography.

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I. N. Aliev

An Experimental Investigation of the Elastic Dynamic Characteristics of a Model of an Ampoule for the Space Transportation of Radioactive Wastes at High Temperatures

Dissipative spinodal decomposition in systems with nonreciprocal effective interactions

Nonlinear waves propagating over a conducting ideal fluid surface in an electric field

Evolution of perturbations of a charged interface between immiscible inviscid fluids in the interelectrode gap

Efficient approach to calculating radial distribution function in bcc Fe lattice

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