Intermediate Structures in the Process of Burning of High-Energy Condensed Systems

Burning of high-energy condensed systems may include the formation of an intermediate structure (skeleton layer, which significantly affects the burning process). The influence of binder curing on the formation of such a structure is studied experimentally. It is demonstrated that the laws of the sk...

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Veröffentlicht in:	Combustion, explosion, and shock waves explosion, and shock waves, 2022-08, Vol.58 (4), p.408-414
Hauptverfasser:	Babuk, V. A., Budnyi, N. L., Kuklin, D. I., Naryzhnyi, S. Yu, Nizyaev, A. A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Classical and Continuum Physics Classical Mechanics Control Curing Dynamical Systems Engineering Physical Chemistry Physics Physics and Astronomy Surface layers Vibration
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container_title	Combustion, explosion, and shock waves
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creator	Babuk, V. A. Budnyi, N. L. Kuklin, D. I. Naryzhnyi, S. Yu Nizyaev, A. A.
description	Burning of high-energy condensed systems may include the formation of an intermediate structure (skeleton layer, which significantly affects the burning process). The influence of binder curing on the formation of such a structure is studied experimentally. It is demonstrated that the laws of the skeleton layer formation during binder curing depend to a large extent on the polymer structure. A specific role of the substance acting as a binder is determined. The basic features of modeling phenomena in the surface layer with and without the skeleton layer are presented. The possibility of predicting a number of characteristics of the burning process is demonstrated.
doi_str_mv	10.1134/S0010508222040025
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A. ; Budnyi, N. L. ; Kuklin, D. I. ; Naryzhnyi, S. Yu ; Nizyaev, A. A.</creator><creatorcontrib>Babuk, V. A. ; Budnyi, N. L. ; Kuklin, D. I. ; Naryzhnyi, S. Yu ; Nizyaev, A. A.</creatorcontrib><description>Burning of high-energy condensed systems may include the formation of an intermediate structure (skeleton layer, which significantly affects the burning process). The influence of binder curing on the formation of such a structure is studied experimentally. It is demonstrated that the laws of the skeleton layer formation during binder curing depend to a large extent on the polymer structure. A specific role of the substance acting as a binder is determined. The basic features of modeling phenomena in the surface layer with and without the skeleton layer are presented. 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subjects	Classical and Continuum Physics Classical Mechanics Control Curing Dynamical Systems Engineering Physical Chemistry Physics Physics and Astronomy Surface layers Vibration
title	Intermediate Structures in the Process of Burning of High-Energy Condensed Systems
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