Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber Rifle

Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber Rifle

<p>This paper presents a design of vibration absorber using spring and rubber for 5.56 mm caliber rifle armored vehicle. Such a rifle is used in a Remote-Controlled Weapon System (RCWS) or a turret where it is fixed using a two degree of freedom pan-tilt mechanism. A half car lumped mass dynam...

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Bibliographic Details
Main Authors: Aditya Sukma Nugraha, Bagus Budiwantoro, Estiko Rijanto
Format: Article
Language:English
Published: Indonesian Institute of Sciences 2014-12-01
Series:Journal of Mechatronics, Electrical Power, and Vehicular Technology
Subjects:
Vibration Absorber
Spring
Rubber
Armored Vehicle
Rifle
Online Access:http://mevjournal.com/index.php/mev/article/view/209
id doaj-e4f8abc21ea64b76a4c193a60faea4cb
record_format Article
spelling doaj-e4f8abc21ea64b76a4c193a60faea4cb2020-11-25T03:19:04ZengIndonesian Institute of SciencesJournal of Mechatronics, Electrical Power, and Vehicular Technology2087-33792088-69852014-12-0152758210.14203/j.mev.2014.v5.75-82102Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber RifleAditya Sukma Nugraha0Bagus Budiwantoro1Estiko Rijanto2Research Center for Electric Power and Mechatronics - Indonesia Institute of ScienceInstitut Teknologi Bandung (ITB)Research Center for Electric Power and Mechatronics - Indonesia Institute of Science<p>This paper presents a design of vibration absorber using spring and rubber for 5.56 mm caliber rifle armored vehicle. Such a rifle is used in a Remote-Controlled Weapon System (RCWS) or a turret where it is fixed using a two degree of freedom pan-tilt mechanism. A half car lumped mass dynamic model of armored vehicles was derived. Numerical simulation was conducted using fourth order Runge Kutta method. Various types of vibration absorbers using spring and rubber with different configurations are installed in the elevation element. Vibration effects on horizontal direction, vertical direction and angular deviation of the elevation element was investigated. Three modes of fire were applied i.e. single fire, semi-automatic fire and automatic fire. From simulation results, it was concluded that the parallel configuration of damping rubber type 3, which has stiffness of 980,356.04 (N/m<sup>2</sup>) and damping coefficient of 107.37 (N.s/m), and Carbon steel spring whose stiffness coefficient is 5.547 x 10<sup>6</sup> (N/m<sup>2</sup>) provides the best vibration absorption.</p><p> </p>http://mevjournal.com/index.php/mev/article/view/209Vibration AbsorberSpringRubberArmored VehicleRifle
collection DOAJ
language English
format Article
sources DOAJ
author Aditya Sukma Nugraha
Bagus Budiwantoro
Estiko Rijanto
spellingShingle Aditya Sukma Nugraha
Bagus Budiwantoro
Estiko Rijanto
Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber Rifle
Journal of Mechatronics, Electrical Power, and Vehicular Technology
Vibration Absorber
Spring
Rubber
Armored Vehicle
Rifle
author_facet Aditya Sukma Nugraha
Bagus Budiwantoro
Estiko Rijanto
author_sort Aditya Sukma Nugraha
title Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber Rifle
title_short Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber Rifle
title_full Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber Rifle
title_fullStr Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber Rifle
title_full_unstemmed Design of Vibration Absorber using Spring and Rubber for Armored Vehicle 5.56 mm Caliber Rifle
title_sort design of vibration absorber using spring and rubber for armored vehicle 5.56 mm caliber rifle
publisher Indonesian Institute of Sciences
series Journal of Mechatronics, Electrical Power, and Vehicular Technology
issn 2087-3379
2088-6985
publishDate 2014-12-01
description <p>This paper presents a design of vibration absorber using spring and rubber for 5.56 mm caliber rifle armored vehicle. Such a rifle is used in a Remote-Controlled Weapon System (RCWS) or a turret where it is fixed using a two degree of freedom pan-tilt mechanism. A half car lumped mass dynamic model of armored vehicles was derived. Numerical simulation was conducted using fourth order Runge Kutta method. Various types of vibration absorbers using spring and rubber with different configurations are installed in the elevation element. Vibration effects on horizontal direction, vertical direction and angular deviation of the elevation element was investigated. Three modes of fire were applied i.e. single fire, semi-automatic fire and automatic fire. From simulation results, it was concluded that the parallel configuration of damping rubber type 3, which has stiffness of 980,356.04 (N/m<sup>2</sup>) and damping coefficient of 107.37 (N.s/m), and Carbon steel spring whose stiffness coefficient is 5.547 x 10<sup>6</sup> (N/m<sup>2</sup>) provides the best vibration absorption.</p><p> </p>
topic Vibration Absorber
Spring
Rubber
Armored Vehicle
Rifle
url http://mevjournal.com/index.php/mev/article/view/209
work_keys_str_mv AT adityasukmanugraha designofvibrationabsorberusingspringandrubberforarmoredvehicle556mmcaliberrifle
AT bagusbudiwantoro designofvibrationabsorberusingspringandrubberforarmoredvehicle556mmcaliberrifle
AT estikorijanto designofvibrationabsorberusingspringandrubberforarmoredvehicle556mmcaliberrifle
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