Impact of Energy Dissipation in the Launcher-Armoured Vehicle Assembly on the Conditions of Launching Unguided Missiles

The object of the research is the ZSMU-70 armament unit, which consists of an armoured fighting vehicle and the WW-4 launcher mounted on it along with unguided missiles NLPR-70. The launch of the missiles was recorded at a rocket range with a fast digital camera the Phantom v0.1. Three missiles we...

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Main Authors: Zbigniew DZIOPA, Maciej NYCKOWSKI
Format: Article
Language:English
Published: Military University of Technology, Warsaw, Poland 2015-12-01
Series:Problemy Mechatroniki
Subjects:
Online Access:http://publisherspanel.com/gicid/01.3001.0008.5197
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spelling doaj-240e16c76487418193b94087ad6778562020-11-25T01:06:31ZengMilitary University of Technology, Warsaw, PolandProblemy Mechatroniki2081-58912015-12-0164556810.5604/20815891.118595001.3001.0008.5197Impact of Energy Dissipation in the Launcher-Armoured Vehicle Assembly on the Conditions of Launching Unguided MissilesZbigniew DZIOPA0Maciej NYCKOWSKI1Politechnika Świętokrzyska, KielcePolitechnika Świętokrzyska, Kielce The object of the research is the ZSMU-70 armament unit, which consists of an armoured fighting vehicle and the WW-4 launcher mounted on it along with unguided missiles NLPR-70. The launch of the missiles was recorded at a rocket range with a fast digital camera the Phantom v0.1. Three missiles were launched at short time intervals. Each missile moved along a different path. Due to the fact that the trajectories differed the spread at the potential target site should be perceived as considerable. An analysis of the moments the missiles leave the launcher showed the existence of differences in the take-off parameters. The appearance of adverse conditions for the missile launch results from the dynamics of the system. In order to interpret the obtained results a physical model of the armament module in a vertical plane was formulated. This elaboration is justified by a virtue of the existing symmetry of the inertial characteristics and geometry of the discussed armament module as well as discussing the assembly movement at a rocket range. The conducted modal analysis and the analysis of free vibration using the fundamental dynamic characteristics of the formulated model proved that the negative beat phenomenon is likely to occur. The aim of the study is to determine the influence of introducing the rheological damping elements into the launcher-armoured vehicle model on the conditions of unguided missiles launch. http://publisherspanel.com/gicid/01.3001.0008.5197mechanicsmissile launcherarmoured fighting vehicleenergy dissipation
collection DOAJ
language English
format Article
sources DOAJ
author Zbigniew DZIOPA
Maciej NYCKOWSKI
spellingShingle Zbigniew DZIOPA
Maciej NYCKOWSKI
Impact of Energy Dissipation in the Launcher-Armoured Vehicle Assembly on the Conditions of Launching Unguided Missiles
Problemy Mechatroniki
mechanics
missile launcher
armoured fighting vehicle
energy dissipation
author_facet Zbigniew DZIOPA
Maciej NYCKOWSKI
author_sort Zbigniew DZIOPA
title Impact of Energy Dissipation in the Launcher-Armoured Vehicle Assembly on the Conditions of Launching Unguided Missiles
title_short Impact of Energy Dissipation in the Launcher-Armoured Vehicle Assembly on the Conditions of Launching Unguided Missiles
title_full Impact of Energy Dissipation in the Launcher-Armoured Vehicle Assembly on the Conditions of Launching Unguided Missiles
title_fullStr Impact of Energy Dissipation in the Launcher-Armoured Vehicle Assembly on the Conditions of Launching Unguided Missiles
title_full_unstemmed Impact of Energy Dissipation in the Launcher-Armoured Vehicle Assembly on the Conditions of Launching Unguided Missiles
title_sort impact of energy dissipation in the launcher-armoured vehicle assembly on the conditions of launching unguided missiles
publisher Military University of Technology, Warsaw, Poland
series Problemy Mechatroniki
issn 2081-5891
publishDate 2015-12-01
description The object of the research is the ZSMU-70 armament unit, which consists of an armoured fighting vehicle and the WW-4 launcher mounted on it along with unguided missiles NLPR-70. The launch of the missiles was recorded at a rocket range with a fast digital camera the Phantom v0.1. Three missiles were launched at short time intervals. Each missile moved along a different path. Due to the fact that the trajectories differed the spread at the potential target site should be perceived as considerable. An analysis of the moments the missiles leave the launcher showed the existence of differences in the take-off parameters. The appearance of adverse conditions for the missile launch results from the dynamics of the system. In order to interpret the obtained results a physical model of the armament module in a vertical plane was formulated. This elaboration is justified by a virtue of the existing symmetry of the inertial characteristics and geometry of the discussed armament module as well as discussing the assembly movement at a rocket range. The conducted modal analysis and the analysis of free vibration using the fundamental dynamic characteristics of the formulated model proved that the negative beat phenomenon is likely to occur. The aim of the study is to determine the influence of introducing the rheological damping elements into the launcher-armoured vehicle model on the conditions of unguided missiles launch.
topic mechanics
missile launcher
armoured fighting vehicle
energy dissipation
url http://publisherspanel.com/gicid/01.3001.0008.5197
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AT maciejnyckowski impactofenergydissipationinthelauncherarmouredvehicleassemblyontheconditionsoflaunchingunguidedmissiles
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