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System Approaches to the Problem of Dynamic Damping of Vibrations of Technical Objects of Transport and Technological Purpose: Reduced Stiffness, State Sets, and Form Interactions
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Author(s): Andrey Vladimirovich Eliseev (Irkutsk State Transport University, Russia), Nikolay Konstantinovich Kuznetsov (Irkutsk National Research Technical University, Russia)and Artem Sergeevich Mironov (Irkutsk State Transport University, Russia)
Copyright: 2023
Pages: 16
Source title:
Trends, Paradigms, and Advances in Mechatronics Engineering
Source Author(s)/Editor(s): Mohamed Arezki Mellal (M'Hamed Bougara University, Algeria)
DOI: 10.4018/978-1-6684-5887-7.ch007
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Abstract
The methodological basis for solving the problems of assessment, control, and formation of dynamic states of technical objects of transport and technological purposes in a state of vibration loading is being developed. Within the framework of structural mathematical modeling, mechanical oscillatory systems used as design schemes of technical objects are compared with schemes of dynamically equivalent automatic control systems. New results are presented in the field of technology for evaluating dynamic states and forms of interactions of elements of mechanical oscillatory systems with the reduced elastic characteristics. For mechanical oscillatory systems, an interpretation of dynamic states and forms of interactions in the form of an oriented graph has been developed, creating prerequisites for the classification of a set of dynamic states in which a system can be located under the condition of various types of force excitation
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