Your search keyword '"BALLISTICS"' showing total 20 results

1. Recoil reduction and projectile velocity improvement design of recoilless gun with combustible cartridge.

Author

Liu, Pengzhan, Wang, Guoqiang, Yang, Zhen, and Zhao, Xiongfei

Subjects

*PROJECTILES, *DRONE aircraft, *BALLISTICS, *FIREARMS, *VELOCITY

Abstract

In the era of unmanned war, with the increasing muzzle velocity requirement, the design of gun is significantly restricted by recoil, especially for guns installed on unmanned aerial vehicles. A recoilless gun with combustible cartridge was designed to eliminate recoil and increase projectile velocity, and the influence of main parameters on recoil was studied. First, a design of a recoilless gun with high projectile velocity is proposed based on combustible cartridge case. Next, a classical interior ballistic model is developed during the recoilless gun firing cycle, and the effect of main parameters of interior ballistics on the performance is investigated. Additionally, simple nonlinear fitting formulae are defined to highlight the variation of recoil momentum with the time of interior ballistic model. Finally, numerical simulation results are compared with the test results to validate the feasibility of the design. The experimental results demonstrate that the classical interior ballistic model can be used to accurately analyze the effect of the parameters on the projectile velocity and the recoil reduction efficiency. The projectile velocity of the recoilless gun could raised to 1200 m/s and the recoil momentum could be eliminated almostly. Therefore, the newly designed recoilless gun effectively eliminates the recoil momentum and significantly improves the projectile velocity. The findings should make an important contribution to the field of engineering applications of recoilless gun. [ABSTRACT FROM AUTHOR]

Published

2023

2. Experimental and Theoretical Method for Determining the Law of Constant-Volume Combustion of a High-Density Propellant.

Author

Rogaev, K. S., Ishchenko, A. N., Samorokova, N. M., D'yachkovskii, A. S., and Sidorov, A. D.

Subjects

*PROPELLANTS, *COMBUSTION, *BALLISTICS, *NOZZLES, *PSYCHOLOGICAL burnout, *PROJECTILES

Abstract

A promising direction in barrel ballistics aimed at increasing the muzzle velocity of a projectile is the use of new propellants as an attached charge. This paper presents an experimental and theoretical method for determining the law of propellant combustion in a manometric experiment (in a closed volume). Within the framework of this method, a small number of experiments could be sufficient to determine a change in the law of combustion during the propellant burnout and depending on pressure. This method is demonstrated on the example of processing three experiments with model high-density propellant. The laws of combustion of high-density propellants, obtained in this study, can later be used to calculate the gas-dynamic parameters of a shot from a barrel system or a nozzle bomb (in a semi-closed volume) using these propellants. [ABSTRACT FROM AUTHOR]

Published

2023

3. Gunshots through laminated glass: expelled compounded fragments as a function of bullet type.

Author

Lux, Constantin, Krutzek, Alexander, Reich, Tobias, Welkerling, Stephan, Federspiel, Jan M., Ramsthaler, Frank, Gruber, Hannes, Sauer, Patrick, Kern, Natascha, Verhoff, Marcel A., and Kettner, Mattias

Subjects

*GUNSHOT wounds, *BULLETS, *LAMINATED glass, *BALLISTICS, *PROJECTILES, *GELATIN

Abstract

In the frame of an experimental setting, the formation of round-shaped compounded glass fragments on the exit site after gunshots through a windshield was examined. For that purpose, a 9 × 19 mm pistol (HK P30) and two different cartridges containing (a) a full metal jacketed round-nosed projectile and (b) a deformation projectile were used. On the basis of 52 gunshots, the morphology, impact angles and terminal ballistics of occurring compounded glass fragments were examined. The results showed that the compounded glass fragments' morphology allowed for the differentiation of two used projectiles. Fragments were able to cause round-shaped defects in a single cotton layer (T-shirt) with subsequent penetration of up to 2.4 cm into ballistic gelatin (10%, 4 °C). As a function of the projectile type, the compounded glass fragments showed different reproducible impact angles that differed notably from the known conical pattern of expelled glass fragments after bullet penetration. These findings might help to explain the atypical morphology of gunshot wounds with laminated glass as an intermediate target and prevent possible misinterpretations when reconstructing the sequence of events. [ABSTRACT FROM AUTHOR]

Published

2023

4. Recoil reduction design of gas-controlled side-jet gun based on bifurcated two-phase flow model.

Author

Qiu, Ming, Guo, Fei, Song, Jie, Liao, Zhenqiang, and Si, Peng

Subjects

*TWO-phase flow, *FIREARMS, *BALLISTICS, *THEORY of wave motion, *PROPELLANTS, *PROJECTILES

Abstract

The high recoil force of a high-power gun produces a strong impact on the carrier, which severely limits the application of the high-power gun mounted on vehicles. A gas-controlled side-jet gun was designed to reduce the recoil force, and the gas-solid transient flow in the bifurcated tube of the gun was studied. First, a one-dimensional two-phase interior ballistics model was established considering the gas-solid coupling between the propellant gas and the valve in the front gas tube. Then, the propagation of the rarefaction wave in the barrel was studied, and the flow field distribution in the bifurcated tube was obtained. Finally, the mechanism of recoil reduction was analyzed. Results show that the bifurcated two-phase flow model can be used to accurately analyze the effect of the gas-controlled side-jet gun's parameters on the projectile velocity and the recoil reduction efficiency. The projectile velocities of the gas-controlled side-jet gun and the traditional gun are 955.7 m/s and 960 m/s, respectively. The projectile velocity loss of the gas-controlled side-jet gun is less than 0.5 %. The recoil momentum of the traditional gun and the gas-controlled side-jet gun are 538.62 N·s and 336.68 N·s, respectively. The recoil momentum of the gas-controlled side-jet gun decreases by 37.49 %. Additionally, the single firing time of the gas-controlled side-jet gun (18.91 ms) is less than that of the traditional single-barrel gun (more than 60 ms). Therefore, the newly designed gas-controlled side-jet gun significantly reduces the recoil momentum without losing the projectile velocity and continuous firing mode. [ABSTRACT FROM AUTHOR]

Published

2023

5. Surface wave analysis of the skin for penetrating and non-penetrating projectile impact in porcine legs.

Author

LeSueur, Joseph, Hampton, Carolyn, Koser, Jared, Chirvi, Sajal, and Pintar, Frank A.

Subjects

*WAVE analysis, *SURFACE analysis, *PROJECTILES, *SURFACE waves (Seismic waves), *BULK modulus, *MODULUS of rigidity, *PENETRATION mechanics, *SKIN

Abstract

Secondary blast injuries may result from high-velocity projectile fragments which ultimately increase medical costs, reduce active work time, and decrease quality of life. The role of skin penetration requires more investigation in energy absorption and surface mechanics for implementation in computational ballistic models. High-speed ballistic penetration studies have not considered penetrating and non-penetrating biomechanical properties of the skin, including radial wave displacement, resultant surface wave speed, or projectile material influence. A helium-pressurized launcher was used to accelerate 3/8″ (9.525 mm) diameter spherical projectiles toward seventeen whole porcine legs from seven pigs (39.53 ± 7.28 kg) at projectile velocities below and above V50. Projectiles included a mix of materials: stainless steel (n = 26), Si3N4 (n = 24), and acetal plastic (n = 24). Tracker video analysis software was used to determine projectile velocity at impact from the perpendicular view and motion of the tissue displacement wave from the in-line view. Average radial wave displacement and surface wave speed were calculated for each projectile material and categorized by penetrating or non-penetrating impacts. Two-sample t-tests determined that non-penetrating projectiles resulted in significantly faster surface wave speeds in porcine skin for stainless steel (p = 0.002), plastic (p = 0.004), and Si3N4 ball bearings (p = 0.014), while ANOVA determined significant differences in radial wave displacement and surface wave speed between projectile materials. Surface wave speed was used to quantify mechanical properties of the skin including elastic modulus, shear modulus, and bulk modulus during ballistic impact, which may be implemented to simulate accurate deformation behavior in computational impact models. [ABSTRACT FROM AUTHOR]

Published

2023

6. Projectiles Under a New Angle: a Ballistic Analysis Provides an Important Building Block to Grasp Paleolithic Weapon Technology.

Author

Coppe, Justin, Lepers, Christian, and Rots, Veerle

Subjects

*PROJECTILES, *SOLID mechanics, *WEAPONS systems, *FRACTURE mechanics, *BALLISTICS, *PALEOLITHIC Period

Abstract

Weapons and past weapon systems are important research topics in Paleolithic archaeology. Its popularity stems from its relevance for understanding broader technological evolution, subsistence strategies, and human behavior. However, identifying what weapon system was used has proven to be a significant methodological challenge over the last few decades and in spite of what some titles of recent publications suggest, the question is still not resolved. In this paper, we present the results of a ballistic analysis of the four modes of propulsion that are traditionally considered for the Paleolithic period (bow, spear-thrower, hand-cast and thrusting spear). We advocate a stepwise approach to the problem given the multiple variables involved. The goal of this study is to add an essential building block to current understanding by exploring the notion of reactional impact stress (RIS) on the basis of the angle of incidence developed by the different projectiles. Our results show the importance of RIS for accurately understanding the projectile impact phenomenon and the existence of a reproducible and mutually distinct RIS between the four tested weapon systems. These results shed a new light on approaches that have been used previously to examine weapon systems archaeologically, such as those relying on the length of "diagnostic impact fractures". Our results allow the proposition of an alternative approach that appears to hold great potential, in particular for identifying the use of the bow. While a reliable method for recognizing past propulsion modes is not yet established, we conclude that the solution lies within the integration of several fields, more in particular use-wear analysis, fracture mechanics in brittle solids, and ballistics and we progressively move forward in identifying the key building blocks of such a method. [ABSTRACT FROM AUTHOR]

Published

2022

7. An explosively driven launcher capable of 10kms-1 projectile velocities.

Author

Huneault, J., Loiseau, J., Hildebrand, M. T., and Higgins, A. J.

Subjects

*PROJECTILES, *HYPERVELOCITY, *BALLISTICS, *VELOCITY, *PROPELLANTS

Abstract

Launching large (> 1 g) well-characterized projectiles to velocities beyond 10 km s - 1 is of interest for a number of scientific fields, but is beyond the reach of current hypervelocity launcher technology. This paper reports the development of an explosively driven light-gas gun that has demonstrated the ability to launch 8-mm-diameter 0.36-g magnesium projectiles to 10.4 km s - 1 . The implosion-driven launcher (IDL) uses the linear implosion of a pressurized tube to shock-compress helium gas to a pressure of 5 GPa, which then expands to propel a projectile to hypervelocity. The launch cycle of the IDL is explored with the use of down-bore velocimetry experiments and a quasi-one-dimensional internal ballistics solver. A detailed overview of the design of the 8-mm launcher is presented, with an emphasis on the unique considerations which arise from the explosively driven propellant compression and the resulting extreme pressures and temperatures. The high average driving pressure results in a launcher that is compact, with a total length typically less than a meter. The possibility to scale the design to larger projectile sizes (25 mm diameter) is demonstrated. Finally, concepts for a modified launch cycle which may allow the IDL to reach significantly greater projectile velocities are explored conceptually and with preliminary experiments. [ABSTRACT FROM AUTHOR]

Published

2022

8. Practical application of synthetic head models in real ballistic cases.

Author

Riva, F., Fracasso, T., Guerra, A., and Genet, P.

Subjects

*COMPUTED tomography, *SHOOTINGS (Crime), *AUTOPSY, *PENETRATION mechanics, *BALLISTICS, *PROJECTILES, *SUDDEN death

Abstract

In shooting crimes, ballistics tests are often recommended in order to reproduce the wound characteristics of the involved persons. For this purpose, several "simulants" can be used. However, despite the efforts in the research of "surrogates" in the field of forensic ballistic, the development of synthetic models needs still to be improved through a validation process based on specific real caseworks. This study has been triggered by the findings observed during the autopsy performed on two victims killed in the same shooting incident, with similar wounding characteristics; namely two retained head shots with ricochet against the interior wall of the skull; both projectiles have been recovered during the autopsies after migration in the brain parenchyma. The thickness of the different tissues and structures along the bullets trajectories as well as the incident angles between the bullets paths and the skull walls have been measured and reproduced during the assemblage of the synthetic head models. Two different types of models ("open shape" and "spherical") have been assembled using leather, polyurethane and gelatine to simulate respectively skin, bone and soft tissues. Six shots have been performed in total. The results of the models have been compared to the findings of post-mortem computed tomography (PMCT) and the autopsy findings.Out of the six shots, two perforated the models and four were retained. When the projectile was retained, the use of both models allowed reproducing the wounds characteristics observed on both victims in terms of penetration and ricochet behaviour. However, the projectiles recovered from the models showed less deformation than the bullets collected during the autopsies. The "open shape" model allowed a better controlling on the shooting parameters than the "spherical" model. Finally, the difference in bullet deformation could be caused by the choice of the bone simulant, which might under-represent either the strength or the density of the human bone. In our opinion, it would be worth to develop a new, more representative material for ballistic which simulates the human bone. [ABSTRACT FROM AUTHOR]

Published

2021

9. Wounding potential of 4.4-mm (.173) caliber steel ball projectiles.

Author

Kamphausen, Thomas, Janßen, Katharina, Banaschak, Sibylle, and Rothschild, Markus Alexander

Subjects

*GUNSHOT wounds, *AIR guns, *FORENSIC sciences, *PENETRATING wounds, *PROJECTILES, *FORENSIC ballistics

Abstract

From time to time, severe or fatal injuries caused by small caliber air rifle projectiles are seen. In forensic sciences, the theoretical wounding potential of these weapons and projectiles is widely known. Usually, shots against the skull were reported and, in these cases, penetrating the eyes or thin bone layers of the temporal region. Amongst a huge number of different projectiles available for air guns, sub-caliber 4.4-mm (.173) caliber steel ball projectiles were used in an unusual suicide case. This case led to fundamental questions concerning wound ballistics. An 82-year-old man shot once against his right temporal region and twice into his mouth with a 4.5-mm (.177) caliber air rifle. Because of the exceptionally deep penetration of the base of the skull and the use of spherical-shaped sub-caliber air rifle projectiles, terminal ballistic features were analyzed and compared to results published in forensic literature. Test shots using the same weapon and similar projectiles were fired into ballistic gelatin to measure and calculate basic wound ballistic variables of cal. 4.4-mm (.173) steel balls. In comparison, further test shots with cal. 4.5-mm (.177) steel balls BB (ball bearing), flat-headed and pointed air rifle pellets ("diabolos") were carried out. The theoretical penetration depth in solid bone was calculated with 36.4 mm, and test shots in gelatin from hard contact produced an on-average wound track of 120 mm underlining the potential wounding effect. Furthermore, spherical projectiles could roll back and forth within the barrel, and an air cushion between projectile and breechblock can reduce muzzle velocity by more than half, explaining the retained missile in the temporal region. [ABSTRACT FROM AUTHOR]

Published

2019

10. Numerical investigation on ballistic resistance of aluminium multi-layered panels impacted by improvised projectiles.

Author

Szymczyk, Michał, Sumelka, Wojciech, and Łodygowski, Tomasz

Subjects

*STRUCTURAL panels, *PROJECTILES, *BALLISTICS, *PROBLEM-based learning, *ENGINEERING education

Abstract

This paper presents a numerical study of perforation of the aluminiummulti-layered targets impacted by steel projectiles in the shape of a ball, nut and nail. For the construction of the protective panels arc-, rectangular-, V- and U-shaped sheets of metal were considered. During the tests the panel thickness was constant at 160 mm. The panels were composed of 1.5-mm-thick aluminium sheets, and the initial speed of debris was 500 m/s. A comprehensive numerical study indicated the shape of the layer that had superior ballistic resistance and the best strength-to-weight ratio. Computational analyses were also used to investigate the influence of thermal softening and strain rate hardening in the Johnson–Cook constitutive model on the ballistic performance of layered targets. The number of layers required to stop the penetrating objects was compared for the rigid and deformable projectiles. Based on the comparative studies, some guidelines for engineering tasks involving exploration of number of possible technical solutions were proposed. [ABSTRACT FROM AUTHOR]

Published

2018

11. Influence of Mass Ratio on Forward and Reverse Ballistic Impact Equivalence: Experiments, Simulations, and Mechanism Analysis.

Author

Liu, J., Huang, F., Xu, K., Liu, L., Zuo, T., and Pi, A.

Subjects

*BALLISTICS, *PROJECTILES, *THEORY of wave motion, *DEFORMATIONS (Mechanics), *STRENGTH of material testing, *DIGITAL image correlation

Abstract

Reverse ballistic impact tests are widely used for studying dynamic responses because they provide more comprehensive and quantitative projectile/rod response results than forward impact tests. To examine equivalent forward and reverse conditions, a series of 8-cm length oxygen-free copper rods with varying length-diameter ratios was used in forward and reverse ballistic Taylor impact experiments with velocities and strain ratios of 104-215 m/s and 1.25 × 10-2.5 × 10 s, respectively. Digital image correlation (DIC) and traditional optical measurements were used to determine instantaneous responses at the μs level. Based on DIC, transient structural deformation, and plastic wave propagation, the forward and reverse length difference at similar velocities ranges from 2 to 6.95 %. Rules governing deformation from the perspective of energy, along with rules for changes in energy and plastic wave propagation were determined. The relative deformation energy error was below 5 % for target projectile mass ratios above 20. [ABSTRACT FROM AUTHOR]

Published

2017

12. Development of three-dimensional numerical model for combustion-flow in interior ballistics.

Author

Jang, Jin-Sung, Oh, Seok-Hawn, and Roh, Tae-Seong

Subjects

*INTERIOR ballistics, *GUNNERY, *BALLISTICS, *PROJECTILES, *PENETRATION mechanics, *COMBUSTION, *COMBUSTION kinetics

Abstract

Interior ballistics analysis is required for the development of the gun system. Interior ballistics is a complex phenomenon containing the propellant combustion and gas flow and is completed in tens of milliseconds during gun firing. Thus, some data cannot be directly measured by experiment. Numerical analysis is therefore traditionally used to understand the complex gun firing phenomena. In previous studies, the two-dimensional axisymmetric numerical method for interior ballistics using the Eulerian-Lagrangian approach has been developed. There are some limits in depicting the actual phenomena with two-dimensional models. Therefore, a three-dimensional numerical model has been built in the present study. Unlike the conventional method, the calculation has been conducted by separating the physical phenomena into the combustion part and the flow part for simplicity and efficiency. The internal flow in the gun barrel has been calculated by using the STAR-CCM+ and the source terms produced by the propellant combustion has been computed by utilizing the existing code. The developed numerical model has been compared with the AGARD gun results and the simulation of 40 mm gun firings. The reliability of the developed model has been confirmed because the results of the numerical analysis greatly agree with the simulation results. The basis of the three-dimensional analysis of the interior ballistics has been formed through this study. [ABSTRACT FROM AUTHOR]

Published

2016

13. The 'triple contrast' method in experimental wound ballistics and backspatter analysis.

Author

Schyma, Christian, Lux, Constantin, Madea, Burkhard, and Courts, Cornelius

Subjects

*BALLISTICS, *PROJECTILES, *AMMUNITION, *PENETRATION mechanics, *COMPUTED tomography

Abstract

In practical forensic casework, backspatter recovered from shooters' hands can be an indicator of self-inflicted gunshot wounds to the head. In such cases, backspatter retrieved from inside the barrel indicates that the weapon found at the death scene was involved in causing the injury to the head. However, systematic research on the aspects conditioning presence, amount and specific patterns of backspatter is lacking so far. Herein, a new concept of backspatter investigation is presented, comprising staining technique, weapon and target medium: the 'triple contrast method' was developed, tested and is introduced for experimental backspatter analysis. First, mixtures of various proportions of acrylic paint for optical detection, barium sulphate for radiocontrast imaging in computed tomography and fresh human blood for PCR-based DNA profiling were generated (triple mixture) and tested for DNA quantification and short tandem repeat (STR) typing success. All tested mixtures yielded sufficient DNA that produced full STR profiles suitable for forensic identification. Then, for backspatter analysis, sealed foil bags containing the triple mixture were attached to plastic bottles filled with 10 % ballistic gelatine and covered by a 2-3-mm layer of silicone. To simulate backspatter, close contact shots were fired at these models. Endoscopy of the barrel inside revealed coloured backspatter containing typable DNA and radiographic imaging showed a contrasted bullet path in the gelatine. Cross sections of the gelatine core exhibited cracks and fissures stained by the acrylic paint facilitating wound ballistic analysis. [ABSTRACT FROM AUTHOR]

Published

2015

14. Fabricating Aluminum Bronze Rotating Band for Large-Caliber Projectiles by High Velocity Arc Spraying.

Author

Wu, Bin, Fang, Ling-hui, Chen, Xiao-lei, Zou, Zhi-qiang, Yu, Xu-hua, and Chen, Gang

Subjects

*ALUMINUM bronze, *PROJECTILES, *METAL spraying, *BALLISTICS, *METAL coating, *TRIBOLOGY

Abstract

The necessity of finding new rotating band materials and developing corresponding joining technologies for large-caliber projectiles has been revealed by the recent increase in the ballistic performance of high loads. In this paper, aluminum bronze coatings were fabricated by the high velocity arc spraying (HVAS) technique. Microstructure and microhardness of the prepared coatings were investigated. Ring-on-disk dry sliding wear tests were conducted in an ambient condition to examine the tribological behavior of the coatings. Quasi-static engraving processes of rotating bands made of as-sprayed aluminum bronze coating and bulk copper were studied using rate-controlled push test methodology on an MTS 810 Material Testing System. The results show that the as-sprayed aluminum bronze coatings have a dense microstructure with porosity of about 1.6%. Meanwhile, the as-sprayed coating presents a higher microhardness than pure copper. The friction coefficient of coatings is about 0.2-0.3 in the steady state. Tribological mechanisms of the as-sprayed coatings were discussed. The engraving test results show that the aluminum bronze rotating band presents high bonding strength and good plasticity. The HVAS aluminum bronze coating should be a possible substitute for the state-of-the-art copper rotating band. [ABSTRACT FROM AUTHOR]

Published

2014

15. Ballistic parameters of .177 (4.5 mm) caliber plastic-sleeved composite projectiles compared to conventional lead pellets.

Author

Frank, Matthias, Schönekeß, Holger, Jäger, Frank, Herbst, Jörg, Ekkernkamp, Axel, Nguyen, Thanh, and Bockholdt, Britta

Subjects

*PROJECTILES, *SHOT (Pellets), *COMPOSITE materials, *BALLISTICS, *TRAUMATOLOGY, *PARAMETER estimation

Abstract

The capability of conventional air gun lead pellets (diabolo pellets) to cause severe injuries or fatalities even at low kinetic energy levels is well documented in medical literature. Modern composite hunting pellets, usually a metal core (made of steel, lead, zinc, or a zinc and aluminum alloy) encased in a plastic sleeve, are of special forensic and traumatological interest. These projectiles are advertised by the manufacturers to discharge at higher velocities than conventional air gun pellets, thus generating very high tissue-penetrating capabilities. Lack of experimental data on these uncommon air gun projectiles induced this work. Ballistic parameters of 12 different caliber .177 (4.5 mm) composite pellets, discharged from two spring-piston air guns (Weihrauch HW 35, Webley CUB) and three pneumatic air guns (Walther LGR, Walther LG400, Walther LP300), were investigated using a ballistic speed measurement system and compared to a conventional diabolo pellet (RWS Meisterkugel) as reference projectile. Although overall results were inconsistent, for some projectile-weapon combinations (particularly spring-piston air guns), a significant change of the kinetic energy (−53 up to +48 %) to the reference projectile was observed. The data provided in this work may serve as a basis for forensic investigation as well as traumatological diagnosis and treatment of injuries caused by these uncommon projectiles. [ABSTRACT FROM AUTHOR]

Published

2013

16. Special features of high-speed projectile interaction with barriers protected by a water layer.

Author

Afanas'eva, S., Belov, N., Burkin, V., D'yachkovskii, A., Evtyushkin, E., Zykov, E., Ishchenko, A., Monakhov, R., Rodionov, A., Khabibullin, M., and Yugov, N.

Subjects

*STRAINS & stresses (Mechanics), *PROJECTILES, *BALLISTICS, *HYDRODYNAMICS, *INERTIA (Mechanics)

Abstract

The stress-strain state (SSS) of projectiles is investigated when a high-speed projectile enters water and interacts with barriers protected by a water layer. Experimental investigations are carried out using a high-speed ballistic setup. Calculations are performed within the framework of mechanics of continuous media for an elastic plastic model of a solid with allowance for fracture and hydrodynamic water model. Depending on the projectile speed, different SSS regimes are observed: from small deformed at a speed of ≈1 km/s to fractured at a speed of ≈2 km/s. Calculation technique allows distances in water to be determined at which the metal barrier can be punched for the inertial model. [ABSTRACT FROM AUTHOR]

Published

2013

17. A Model of the Process of Penetration of a Compound Elongated Projectile into a Shielded Target.

Author

Chepkov, I. B. and Lavrikov, S. A.

Subjects

PROJECTILES, BALLISTICS, PENETRATION mechanics, FRACTURE mechanics, DEFORMATIONS (Mechanics)

Abstract

We present the results of theoretical investigation of the mechanism of deformation and fracture of compound elongated projectiles penetrating into a shielded target. The process of penetration is analyzed by taking into account the thermal and mechanical characteristics of the materials, the thickness of the shield, the geometric parameters of the (leading and head) components, and the conditions of collision with the target. The numerical simulation is carried out by using the “LasTan 2D-Impact” software package based on the finite-element method. The proposed model of penetration enables us to study the distinctive features of deformation and fracture of compound elongated projectiles in the process of their interaction with shielded targets. The analysis of the accumulated results shows that the maximum degree of damage to compound elongated projectiles is attained in their leading part and caused by shear and tensile strains. [ABSTRACT FROM AUTHOR]

Published

2003

18. Problem of Increasing the Survivability of Two–Stage Ballistic Guns.

Author

Khristenko, Yu. F.

Subjects

BALLISTICS, PENETRATION mechanics, PROJECTILES, APPLIED mechanics, PHYSICS

Abstract

The paper proposes methods for increasing the survivability of light–gas guns, including new designs and nonconventional modes of shot. It is established theoretically and experimentally that a decrease in the cone angle of the conical adapter to 2.5 — 3° leads to a severalfold increase in the survivability of the high–pressure chamber. A compound piston with a liquid or gel–like filler is designed. The mode of shot from a light–gas gun with superlight pistons and without a diaphragm is justified and tested experimentally. Conical and measuring adapters with liners made of thermally– and wear–resistant alloys are designed to prevent ablation of the light–gas gun barrel. [ABSTRACT FROM AUTHOR]

Published

2000

19. Setting initial motion conditions in ballistic experiments.

Author

Kovalev, P. I. and Tomson, S. G.

Subjects

*MOTION, *BALLISTICS, *OSCILLATIONS, *PROJECTILES, *GUNPOWDER

Abstract

Questions pertaining to the formulation of initial motion conditions—an important task in the course of ballistic experiments—are considered. Effective methods for the excitation and suppression of oscillations in projectiles launched by laboratory gunpowder-charged accelerators are described. Results of tests using the proposed methods are presented. [ABSTRACT FROM AUTHOR]

Published

2007

20. Efficiency of a Collective Action of Solid Projectiles upon an Obstacle at a Moderate Impact Velocity.

Author

Lin, É. É., Zhabitski&ibreve;, S. K., Mel'tsas, V. Yu., Mikha&ibreve;lov, A. L., Novikov, S. A., Stadnik, A. L., and Yanilkin, Yu. V.

Subjects

*PROJECTILES, *DURALUMIN, *ALUMINUM-copper alloys, *MILITARY shooting, *BALLISTICS, *SPEED

Abstract

The collective action of solid projectiles (steel spheres) on a duralumin obstacle was studied for an impact velocity on the order of 1 km/s. The experimentally observed fact that a group of spheres more effectively penetrates into obstacles than do separate spheres indicates that the solid projectiles exhibit mutual influence in the course of such a multiple impact. © 2005 Pleiades Publishing, Inc. [ABSTRACT FROM AUTHOR]

Published

2005