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Journal articles on the topic 'Gun barrel vibrations'

Author: Grafiati
Published: 4 June 2021
Last updated: 3 February 2022

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1

A.M., Lipanov, Rusyak I.G., and Sufiyanov V.G. "A STUDY ON THE EFFECTS OF GUN BARREL VIBRATIONS ON THE FIRING ANGLE OF A PROJECTILE." Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mekhanika, no. 68 (2020): 80–94. http://dx.doi.org/10.17223/19988621/68/8.

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The problem of longitudinal and transverse vibrations of an artillery gun barrel during firing is considered. Unsteady stress-strain equations for the gun barrel are solved together with equations of internal ballistics. Ballistic parameters and dynamics of the projectile motion inside a gun bore are determined using a thermodynamic approach. Formulation of the vibration problem accounts for the initial gravitational deflection of the barrel, mass forces, varying distribution of the propellant gas pressure, and the effect of moving projectile mass on gun barrel vibrations. To solve the equatio
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2

Sava, Alin-Constantin, Ioan-Liviu Piticari, Diana-Georgeta Nistoran, and Cristian-Emil Moldoveanu. "The Analysis Of The Vibratory Movement Of The Gun Barrel And Its Influence On The Firing Accuracy." International conference KNOWLEDGE-BASED ORGANIZATION 21, no. 3 (2015): 883–87. http://dx.doi.org/10.1515/kbo-2015-0150.

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Abstract It is known that the forces and shocks that occur during the firing process of a firearm induce vibrations to the barrel of the weapon and to the weapon as a whole. There are flexural, longitudinal, radial and torsional vibrations. The most important ones are considered to be the flexural or bending vibrations, especially the ones recorded in the muzzle section. This paper presents a method of recording the flexural vibrations of the barrel in the muzzle section of a 5,56mm automatic rifle and the influence of muzzle devices, using modern equipment (high speed cameras) and dedicated s
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3

Dursun, Tolga, Fırat Büyükcivelek, and Çağrıhan Utlu. "A review on the gun barrel vibrations and control for a main battle tank." Defence Technology 13, no. 5 (2017): 353–59. http://dx.doi.org/10.1016/j.dt.2017.05.010.

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4

Gimm, Hak In, Ki Up Cha, and Chang Ki Cho. "Characterizations of gun barrel vibrations of during firing based on shock response analysis and short-time Fourier transform." Journal of Mechanical Science and Technology 26, no. 5 (2012): 1463–70. http://dx.doi.org/10.1007/s12206-012-0335-5.

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5

Kumar, Pravin, S. K. Nayak, Anil M. Datar, and Gian Bhushan. "Analysis of Transverse Vibration Modes of a Gun Barrel Subjected to Recoil." Applied Mechanics and Materials 592-594 (July 2014): 2011–15. http://dx.doi.org/10.4028/www.scientific.net/amm.592-594.2011.

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This paper focuses on the calculation of modal frequencies and corresponding mode shapes of Gun Barrel by analytical method and the Finite Elements Method. Modal analysis is used to find out natural and succeeding two modes frequencies for transverse vibration. Barrel is considered as a cantilever beam. Recoil of Gun Barrel is incorporated as variation in the length cantilever beam. Increase in modal frequencies due to gun barrel recoil is observed. It is concluded that the transverse vibration of gun barrel coupled with the recoil produces a band of frequencies in each modes. The analysis and
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6

Arnesen, Gernt. "Gun barrel vibration damper." Journal of the Acoustical Society of America 100, no. 5 (1996): 2900. http://dx.doi.org/10.1121/1.417135.

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7

Peng, Feng Sheng, Wei Ning, Lin Sen Shu, and Dong Sheng Zhang. "Study on Vibration Control of Gun Tube with Intelligent Structure." Applied Mechanics and Materials 757 (April 2015): 165–69. http://dx.doi.org/10.4028/www.scientific.net/amm.757.165.

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An active control test is done trying to control the vibration of gun tube. A four-layer piezoelectric actuator is glued on the root of an analogue tube (a steel barrel) and a voltage amplifier is used to regulate the voltage on the actuator restraining vibration of the barrel. With 130 voltages, the vibration acceleration of the simulated free end of the barrel decreases 83 percent from the original 60 m/s2 and he attenuation time is shorted greatly. It can be seen that the vibration of the barrel is decreased obviously. It is feasible and very effective to control the vibration of gun tube b
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8

Chen, Shuai, and Cun Gui Yu. "Vibration Characteristic Analysis of the Barrel." Advanced Materials Research 1014 (July 2014): 143–46. http://dx.doi.org/10.4028/www.scientific.net/amr.1014.143.

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This study is based on the graduation design for undergraduate course. In the paper, finite element analysis software ANSYS had been used to create the finite element model of a cannon barrel. On this basis, the vibration modal analysis of the barrel was conducted. Through the model analysis, the natural frequency and modal shape of the cannon barrel was obtained. The situations of stiffness strength and elasticity deformation about each part of the barrel were got by analysis of the modal shape. By this way, we can verify the rationality of the barrel design .Also it can provide improvements
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9

Shi, Yue Dong, and Zhong Luo. "Natural Vibration Analysis for Gun Using Rigid-Flexible Coupling Multi-Body Modeling Method." Advanced Materials Research 706-708 (June 2013): 1437–42. http://dx.doi.org/10.4028/www.scientific.net/amr.706-708.1437.

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To study the natural vibration characteristic of gun systems, the rigid-flexible coupling multi-body modeling method for gun system was developed. Using multi-body theory the rigid-flexible coupling chain structure of gun was established firstly, and the dynamic equation in closed form of gun system during launching was provided by Lagrange’s method of the second. Based on above, the analytic expressions of eigen-value equations for gun system were presented. And using that, the natural vibration frequencies of gun system were calculated, and the natural vibration characteristics were analyzed
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10

KIM, JIN-BONG. "COMBINED EFFECTS OF A GUN PROFILE AND SABOT ON THE STRENGTH OF PENETRATOR." International Journal of Modern Physics B 20, no. 25n27 (2006): 4517–22. http://dx.doi.org/10.1142/s0217979206041616.

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As the projectile moves through the gun tube, the gun tube is subjected to a traveling load consisting of the weight of the projectile and a transverse force, probably much greater than the weight, due to the mass of the projectile being constrained to follow a curved path, defined by the shape of the gun tube. This is not simply the curvature of the barrel due to gravity, but the instantaneous value resulting from all the causes of vibration. The gun tube profile and properties of sabot may affects on strength on the penetrator traveling in the gun tube. In addition to these, the aspect ratio
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11

Yue, Pengfei, Yongyong Zhu, Yang Zhao, and Deshi Wang. "Research on Vibration Characteristics of Gun Rotating Parts." E3S Web of Conferences 252 (2021): 02037. http://dx.doi.org/10.1051/e3sconf/202125202037.

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Artillery backlash angle is an important factor in firing accuracy. It is necessary to study the law of the change of the backlash angle in order to master the dynamic error of artillery rotating parts in the high and low direction. The vibration equation of backlash angle was deduced based on the force analysis of the rotating parts. The structure and physical parameters of artillery were selected, and the influence of different factors on the backlash angle was analyzed. The case analysis shows that the torsional rigidity of the high and low machine should be designed within an appropriate r
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12

Topchii, V. I., I. S. Aftanasiv, and I. G. Svidrak. "Development and modeling of a device for strengthening the channels of gun barrels by the method of vibration-centrifugal processing." Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies 21, no. 91 (2019): 118–23. http://dx.doi.org/10.32718/nvlvet-f9120.

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The paper proposes a fundamentally new method of vibration-centrifugal hardening of internal cylindrical surfaces of long-length steel parts, in particular artillery guns, belonging to a group of methods of surface plastic deformation, and is characterized by providing a significant level of energy for deformation of the material being processed. Artillery cannons, along with a system for targeting shooting guns, are perhaps the most responsible component, which not only provides range and accuracy of the aiming shot, but also regulates the durability of the gun in general. During each of the
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13

Chen, Yu, Guolai Yang, and Quanzhao Sun. "Dynamic simulation on vibration control of marching tank gun based on adaptive robust control." Journal of Low Frequency Noise, Vibration and Active Control 39, no. 2 (2019): 416–34. http://dx.doi.org/10.1177/1461348419846685.

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In order to better understand the dynamic behavior and decrease the muzzle vibration of marching tank, a mechanical–electrical–hydraulic integrated dynamic model of marching tank was established based on a novel dynamic co-simulation method. The hydraulic system model was modeled in Amesim and the dynamic model of marching tank was established in RecurDyn based on multi-body system theory, vehicle terramechanics, and gun launch dynamics. The control system model was modeled in MATLAB/Simulink. Therein, the adaptive robust control algorithm was introduced to design the vertical stabilizer contr
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14

Chen, Yu, Guolai Yang, Honggen Zhou, and Jinfeng Liu. "Influence of Projectile-Barrel Coupling on Gun Vibration of the Moving Tank Under the Influence of a Stabilizer." Arabian Journal for Science and Engineering 46, no. 8 (2021): 7635–48. http://dx.doi.org/10.1007/s13369-021-05473-2.

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15

Chen, Yu, and Guolai Yang. "Dynamic simulation of tank stabilizer based on adaptive control." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 233, no. 9 (2018): 3038–49. http://dx.doi.org/10.1177/0954406218802315.

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Tank stabilizer is a control system keeping the bore axis in the desired sighting angle. For the control problem of the stabilizer in the case of uncertain parameters, the adaptive control method is introduced to design the vertical tank stabilizer with the nonlinear dynamic model of vertical stabilizer given in the paper. In the design, the multiple parameter uncertainties of the hydraulic servo system are fully considered and the linear feedback control is used to improve the asymptotic stability of the system. The vertical stabilizer of tank is simulated in MATLAB/Simulink environment. In a
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16

KOÇ, Mehmet Akif, İsmail ESEN, and Yusuf ÇAY. "Dynamic analysis of gun barrel vibrations due to effect of an unbalanced projectile considering 2-D transverse displacements of barrel tip using a 3-D element technique." Latin American Journal of Solids and Structures 15, no. 9 (2018). http://dx.doi.org/10.1590/1679-78254972.

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17

Zhang, Xiao-bing, and Ying-ze Wang. "Analysis of Dynamic Characteristics for Rarefaction Wave Gun During the Launching." Journal of Applied Mechanics 77, no. 5 (2010). http://dx.doi.org/10.1115/1.4001289.

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Rarefaction wave gun (RAVEN) propulsion has renewed interest in the fundamental limits of recoil reductions attainable by redirecting propellant gases rearward from a gun without compromising the projectile propulsion. Compared with a conventional gun there is a great difference in the launch process and launch structure. This paper is concerned with an analysis of the dynamic characteristics of this high performance weapon system by numerical simulation. Based on its launch mechanism and launch structure, the vibration equation describing the vibration characteristics of RAVEN was established
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