Your search keyword '"BALLISTICS"' showing total 1,603 results

151. Ballistic transport through electric field modulated graphene periodic magnetic barriers.

Author

Biswas, R., Biswas, A., Hui, N., and Sinha, C.

Subjects

*ELECTRIC fields, *BALLISTICS, *GRAPHENE, *ELECTROMAGNETIC fields, *PHYSICS research

Abstract

The transmission coefficient and the ballistic conductance are studied theoretically for a Dirac fermion through the graphene periodic magnetic barriers modulated by a homogeneous in-plane electric field. The transmission is highly asymmetric for zero and low biased conditions of the system. In contrast, it turns out to be symmetric in case of strongly modulated (by electric field) magnetic barriers and becomes independent of the number of barriers due to the predominant Klein tunneling effect. Interesting electric field effects are noted on the angular transmission properties of the chiral carriers. The conductivity profile exhibits some negative differential conducting regions, the number and the sharpness of the regions being intimately related to the number of barriers and the Fermi energy of the system. [ABSTRACT FROM AUTHOR]

Published

2010

152. Enhancement of ballistic efficiency due to source to channel heterojunction barrier in Si metal oxide semiconductor field effect transistors.

Author

Wang, W., Tsuchiya, H., and Ogawa, M.

Subjects

*METAL oxide semiconductor field-effect transistors, *ELECTRIC properties of silicon, *BALLISTICS, *HETEROJUNCTIONS, *MONTE Carlo method, *SEMICONDUCTOR-metal boundaries

Abstract

In this paper, we study the influences of a channel source-end potential profile on the ballistic transport of carriers in Si metal oxide semiconductor field effect transistors (MOSFETs) based on a quantum-corrected Monte Carlo device simulation. As a result, we found that higher ballistic efficiency is expected in MOSFETs with a heterojunction bottleneck barrier, such as Schottky source/drain MOSFETs, compared to that with the conventional p-n junction source and drain. Such a superior ballistic behavior is demonstrated due to the narrower bottleneck potential profile formed at the source-channel interface. [ABSTRACT FROM AUTHOR]

Published

2009

153. Conformational dependence of DNA ballistic conductivity.

Author

Starikov, E. B., Quintilla, A., Lee, K. H., and Wenzel, W.

Subjects

*DNA, *BALLISTICS, *CONDUCTIVITY of electrolytes, *ELECTROSTATICS, *MOLECULAR dynamics

Abstract

With the atomistic Kubo–Verges method we calculate the ballistic conductance of various conformers of DNA (A,B,Z), as well as intermediate and composite conformations, using experimental structures and model complexes. For duplexes with 6 and 15 base pairs, we find that the valence band conductivity near the Fermi edge varies dramatically between the different conformations, most notably for the B-to-Z transition. The latter conductivity differences are largely unchanged both in the presence and in the absence of trimethylthiol linkers between DNA and gold electrodes in vacuo, but become much less drastic when explicit molecular dynamics and water-counterion surrounding of B- and Z-DNA are taken into account. Based on atomistic structural models, we argue that changes in the electrostatic energy in the presence of an applied external electric field can induce conformational switching that may be exploited in novel DNA-based memory devices of high packing density. [ABSTRACT FROM AUTHOR]

Published

2008

154. Linear and nonlinear conductance of ballistic quantum wires with hybrid confinement.

Author

Kothari, H., Ramamoorthy, A., Akis, R., Goodnick, S. M., Ferry, D. K., Reno, J. L., and Bird, J. P.

Subjects

*ELECTRON transport, *ONE-dimensional conductors, *NANOWIRES, *ETCHING, *BALLISTICS

Abstract

We characterize the linear and nonlinear electron transport in quantum point contacts (QPCs) realized by a hybrid combination of etching and gating. We demonstrate that the strong electron confinement generated through this hybrid QPC process results in quantized subbands with a large energy separation, leading to the observation of robust one-dimensional quantum-transport effects. Measurements of the nonlinear differential conductance reveal an unexpected bunching of curves at 0.20-0.25×2e2/h, rather than at the expected value of 0.5×2e2/h. Application of a simple analytical model indicates that this bunching is associated with the highly asymmetric manner in which the source-drain voltage is dropped across the QPC near pinch-off and under nonequilibrium conditions. [ABSTRACT FROM AUTHOR]

Published

2008

155. Metamaterials for ballistic electrons.

Author

Dragoman, D. and Dragoman, M.

Subjects

*SEMICONDUCTORS, *ELECTRONS, *EFFECTIVE mass (Physics), *ELECTROMAGNETIC waves, *ATOMS, *QUANTUM wells, *PARTICLES (Nuclear physics), *BALLISTICS

Abstract

This article presents a metamaterial for ballistic electrons, which consists of a quantum barrier formed in a semiconductor with negative effective electron mass. This barrier is the analog of a metamaterial for electromagnetic waves in media with negative electrical permittivity and magnetic permeability. Besides applications similar to those of optical metamaterials, a nanosized slab of a metamaterial for ballistic electrons, sandwiched between quantum wells of positive effective mass materials, reveals unexpected conduction properties, e.g., single or multiple room temperature negative differential conductance regions at very low voltages and with considerable peak-to-valley ratios, while the traversal time of ballistic electrons can be tuned to larger or smaller values than in the absence of the metamaterial slab. Thus, slow and fast electrons, analogous to slow and fast light, occur in metamaterials for ballistic electrons. [ABSTRACT FROM AUTHOR]

Published

2007

156. Noncontact ballistic motion measurement using a fiber-optic confocal sensor.

Author

Shafir, E., Berkovic, G., Horovitz, Y., Appelbaum, G., Moshe, E., Horovitz, E., Skutelski, A., Werdiger, M., Perelmutter, L., and Sudai, M.

Subjects

*BALLISTICS, *MOTION, *PROJECTILES, *SPEED, *CONFOCAL microscopy, *FIBER optics

Abstract

A fiber-optic confocal sensor for noncontact ballistic measurements is described. Determination of motion at velocities of 1.7 km/s with an uncertainty as small as ±0.3% is demonstrated for both a projectile and a free-surface target. The fibers detect the passage of the object at their conjugate image points created by low F/# optics. This results in an output signal comprising a train of sharp pulses each precisely identifying when the ballistic object traverses an image point. Since the ballistic object does not contact the sensor at the time of imaging, the measurements do not perturb the motion, enabling multi-fragment measurement, as well as repetitive measurements of the same object point. [ABSTRACT FROM AUTHOR]

Published

2007

157. Resistance maps from local probing of a ballistic mesoscopic Hall bar.

Author

Papp, G. and Peeters, F. M.

Subjects

*BALLISTICS, *MAGNETIC fields, *ELECTRIC potential, *SYMMETRY (Physics), *MESOSCOPIC phenomena (Physics), *PHYSICS

Abstract

The response of a ballistic mesoscopic Hall bar to a local potential barrier is investigated in the presence of an external magnetic field. The effect of the position of the local potential probe in the Hall cross on the Hall and bend resistance is investigated leading to two-dimensional (2D) resistance maps. The Onsager–Casimir symmetry relations and symmetry relations between resistance measurements when interchanging the current and voltage leads, is obtained numerically for such 2D resistance maps. Symmetry properties are derived for the Hall and bend resistance maps with respect to the position of the local potential barrier. [ABSTRACT FROM AUTHOR]

Published

2007

158. Transverse thermal conductivity of porous materials made from aligned nano- and microcylindrical pores.

Author

Prasher, Ravi

Subjects

*TRANSPORT theory, *THERMAL conductivity, *PHONON spectra, *DIFFUSION, *BALLISTICS, THERMAL properties of porous materials

Abstract

Nanoporous and microporous materials made from aligned cylindrical pores play important roles in present technologies and will play even bigger roles in future technologies. The insight into the phonon thermal conductivity of these materials is important and relevant in many technologies and applications. Since the mean free path of phonons can be comparable to the pore size and interpore distance, diffusion-approximation based effective medium models cannot be used to predict the thermal conductivity of these materials. Strictly speaking, the Boltzmann transport equation (BTE) must be solved to capture the ballistic nature of thermal transport; however, solving BTE in such a complex network of pores is impractical. As an alternative, we propose an approximate ballistic-diffusive microscopic effective medium model for predicting the thermal conductivity of phonons in two-dimensional nanoporous and microporous materials made from aligned cylindrical pores. The model captures the size effects due to the pore diameter and the interpore distance and reduces to diffusion-approximation based models for macroporous materials. The results are in good agreement with experimental data. [ABSTRACT FROM AUTHOR]

Published

2006

159. Doubling of conductance steps in Si/SiO2 quantum point contact.

Author

Boxberg, Fredrik, Häyrynen, Teppo, and Tulkki, Jukka

Subjects

*OXIDATION, *STRAINS & stresses (Mechanics), *BALLISTICS, *ELECTRIC conductivity, *QUANTUM electronics, *CONTINUUM mechanics

Abstract

We have calculated the effect of the oxidation-induced strain on the ballistic conductance in a Si/SiO2 quantum point contact. The strain-induced deformation potential was calculated semiempirically using a viscoelastic continuum model. The charge carriers are confined to the corners of the waveguide by both the strain-induced deformation potential and the Si/SiO2 band edge discontinuity. As a consequence nearly degenerate symmetric and antisymmetric transverse states are formed for the Si [001] minima. This additional degeneracy within the Landauer-Büttiker formalism leads to doubling of conductance steps for electrons in the [001] minima which govern the conductance near the cutoff energy. Due to the additional strain-induced confinement, the effective channel width of the quantum point contact is smaller and therefore the conductance steps are sharper. [ABSTRACT FROM AUTHOR]

Published

2006

160. Bursting of the upper jaw prosthesis and fractures of the lower jaw as indirect injury pattern caused by a headshot: a case report.

Author

Weber, Anja, Wöss, Claudia, Kneubuehl, Beat P., and Rabl, Walter

Abstract

Gunshots to the human body can cause direct and indirect injuries. Direct injuries are a consequence of the projectile guiding its way through the body, creating a permanent wound channel and thereby damaging the penetrated as well as the adjacent tissue. In addition, the temporary wound cavity is responsible for indirect injuries occurring distant to the actual wound tract. This can potentially affect different types of tissue, like blood vessels, organs, or bones, that are not directly passed through by the projectile. For this case report, we describe a suicidal headshot to the temporal area where the extension of the temporary wound cavity and its subsequent collapse led to massive energy transfer to the surrounding tissue leading to breakage of the upper dental prosthesis and fractures of the lower jaw. Thereby outlining the ballistic mechanisms causing indirect injury pattern that have to be considered when examining gunshot wounds. [ABSTRACT FROM AUTHOR]

Published

2023

161. Identification of bullets fired from air guns using machine and deep learning methods.

Author

Mookiah, Muthu Rama Krishnan, Puch-Solis, Roberto, and Nic Daeid, Niamh

Subjects

*AIR guns, *MACHINE learning, *DEEP learning, *BALLISTICS, *DECISION trees, *RANDOM forest algorithms

Abstract

Ballistics (the linkage of bullets and cartridge cases to weapons) is a common type of evidence encountered in criminal cases around the world. The interest lies in determining whether two bullets were fired using the same firearm. This paper proposes an automated method to classify bullets from surface topography and Land Engraved Area (LEA) images of the fired pellets using machine and deep learning methods. The curvature of the surface topography was removed using loess fit and features were extracted using Empirical Mode Decomposition (EMD) followed by various entropy measures. The informative features were identified using minimum Redundancy Maximum Relevance (mRMR), finally the classification was performed using Support Vector Machines (SVM), Decision Tree (DT) and Random Forest (RF) classifiers. The results revealed a good predictive performance. In addition, the deep learning model DenseNet121 was used to classify the LEA images. DenseNet121 provided a higher predictive performance than SVM, DT and RF classifiers. Moreover, the Grad-CAM technique was used to visualise the discriminative regions in the LEA images. These results suggest that the proposed deep learning method can be used to expedite the linkage of projectiles to firearms and assist in ballistic examinations. In this work, the bullets that were compared were air pellets fired from both air rifles and a high velocity air pistol. Air guns were used to collect the data because they were more accessible than other firearms and could be used as a proxy, delivering comparable LEAs. The methods developed here can be used as a proof-of-concept and are easily expandable to bullet and cartridge case identification from any weapon. • The classification of bullets based on LEA topography using machine learning. • Features were extracted using Empirical Mode Decomposition and entropy measures. • Bullet classification was performed using the whole image of LEA and deep learning. • DenseNet121 provided high classification performance. [ABSTRACT FROM AUTHOR]

Published

2023

162. Failure mode and stress wave propagation in concrete target subjected to a projectile penetration followed by charge explosion: Experimental and numerical investigation.

Author

Yang, Yaozong, Fang, Qin, and Kong, Xiangzhen

Subjects

*PENETRATION mechanics, *FAILURE mode & effects analysis, *THEORY of wave motion, *BALLISTICS, *HIGH strength concrete, *STRESS waves, *PROJECTILES, *BLAST waves

Abstract

• Two field tests on concrete targets subjected to a projectile penetration followed by charge explosion were conducted. • The failure mode and stress waves in concrete were experimentally obtained. • Two-step numerical models based on the Kong-Fang concrete material model and SPG method were developed and validated. • The influences of projectile penetration on destructive effects caused by following charge explosion were clarified. The earth penetration weapons (EPWs) usually penetrate into protective structures firstly, and then detonate the charge to induce high-intensity blast stress waves to cause further damage. Existing investigations on the destructive effect caused by the following charge explosion after penetration of EPWs are very limited. To clarify the combined destructive effect in concrete material caused by an EPW, an experimental and numerical investigation on failure mode and stress wave propagation in concrete target subjected to a projectile penetration followed by charge explosion was conducted in the present study. Firstly, two field tests on high strength fiber-reinforced concrete targets subjected to a projectile penetration followed by charge explosion were conducted, in which the failure and blast waves in concrete targets were comprehensively obtained. Then two-step numerical models based on the Kong-Fang concrete material model and SPG method were developed and validated against the experimental data. Finally, based on the validated numerical models, the influences of projectile penetration on the destructive effect caused by following charge explosion were analyzed. The numerical results demonstrated that the damage caused by projectile penetration has significant influences on the final failure mode and stress wave propagation in concrete targets. The research results can provide an important reference for the design of protective structure against EPWs. [ABSTRACT FROM AUTHOR]

Published

2023

163. Dynamics and the breaking of a driven cage: I2 in solid Ar.

Author

Bihary, Z., Karavitis, M., Apkarian, V. A., and Zadoyan, R.

Subjects

*WAVE packets, *TRANSDUCERS, *RESONANCE, *MOLECULAR dynamics, *GAUSSIAN processes, *MULTIPHOTON processes, *BALLISTICS, *PHOTODISSOCIATION

Abstract

Pump–probe measurements of I2 in solid Ar are reported and analyzed to extract a description of cage response to impulsive excitation, from the gentle kick, up to the breaking point. The most informative data are obtained through wavepacket motion on cage-bound, but otherwise dissociative, potentials where the chromophore acts as a transducer to drive the cage and to report on the local dynamics. This general class of dynamics is identified and analyzed as a function of energy in Ar, Kr, and Xe. The overdriven cage rebounds with a characteristic period of 1.2 ps that shows little dependence on excitation amplitude in all hosts. After rebound, the cage rings as a local resonant mode in Ar, with a period of 1 ps and dephasing time of 3 ps. This mode remains at the Debye edge in Kr and Xe, with periods of 630 and 800 fs, and dephasing times of 8 and 6 ps, respectively. In the bound B-state, the cage fluctuates toward its dilated equilibrium structure on a time scale of 3 ps, which is extracted from the down-chirp in the molecular vibrational frequency. When kicked with excess energy of 4 eV, the Ar cage breaks with 50% probability, and the molecule dissociates. The kinetics of polarization selective, multiphoton dissociation with Gaussian laser intensity profiles is delineated and the ballistics of cage breakout is described: The photodissociation proceeds by destruction of the local lattice, by creating interstitials and vacancies. During large amplitude motion on cage-bound potentials, sudden, nonadiabatic spin–flip transitions can be observed and quantified in space and time. The spin–flip occurs with unit probability in Ar when the I*–I bond is stretched beyond 6 Å. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004

164. Efficient method for the calculation of ballistic quantum transport.

Author

Mamaluy, D., Sabathil, M., and Vogl, P.

Subjects

*BALLISTICS, *GREEN'S functions

Abstract

We present an efficient method to calculate the ballistic transmission function and current of an arbitrarily shaped, multiterminal two- or three-dimensional open device. It is shown that the calculation of the energy dependent transmission function can be reduced to a single calculation of some stationary states of the isolated device and the inversion of a small matrix that is energy dependent. The size of this matrix is shown to be governed by the size of the boundary region between the leads and the device. The method that we term contact block reduction method is illustrated by a numerical example. [ABSTRACT FROM AUTHOR]

Published

2003

165. Ballistic transport and photoluminescence in silicon nanocrystallites.

Author

Torchynska, Tatiana V.

Subjects

*BALLISTICS, *PHOTOLUMINESCENCE, *SILICON crystals

Abstract

One of the most interesting problems of modern solid-state physics is the emission mechanism of bright photoluminescence in the red spectral range discovered in silicon nanocrystallite structures, particularly in wires and dots. This article presents an interpretation of strong "red" photoluminescence in silicon wires and dots based on hot carrier ballistic transport in the process of photoluminescence excitation. Photoluminescence (PL), its excitation, electron paramagnetic resonance, infrared absorption and Raman scattering spectra of as-prepared Si wires have been examined. Silicon wire layers (porous silicon) were obtained by electrochemical etching of p-type Si wafers in a HF-ethanol solution. An atomic force microscope is used for porous silicon morphology analysis. It is shown that the very low PL intensity could be attributed to carrier radiative recombination between localized states quantum confined inside Si nanocrystallites. It is revealed that the ballistic effect can enhance the effective hot carrier excitation of interface defect-related photoluminescence in Si nanocrystallite structures. PL excitation spectrum modification depending on the Si crystallite size confirms the role of the ballistic effect in PL excitation of Si low-dimensional structures. [ABSTRACT FROM AUTHOR]

Published

2002

166. Ballistic electronic transport in quantum cables.

Author

Zeng[a], Z. Y., Xiang, Y., and Zhang, L. D.

Subjects

*MESOSCOPIC phenomena (Physics), *BALLISTICS

Abstract

Studies ballistic electronic transport in a proposed mesoscopic structure, quantum cable. Uniqueness of the structure quantum cable for the study of mesoscopic transport; Correlation between Fermi energy of electrons and ballistic conductance of quantum cable; Impact of the accidental degeneracies of the transverse subbands of quantum cable on the quantum conductance units.

Published

2000

167. Negative-effective-mass ballistic field-effect transistor: Theory and modeling.

Author

Gribnikov, Z. S. and Vagidov, N. Z.

Subjects

*BALLISTICS, *DIODES, *FIELD-effect transistors

Abstract

Presents information on a study which examined the negative-effective-mass ballistic field-effect transistors. Ballistic carrier transport in diode structures; Ballistic carrier transport in gated structures; Numerical simulation procedure; Simulation results; Conclusions.

Published

2000

168. Analytical and numerical analysis of soft tissue penetration on the example of a pistol ammunition shot.

Author

ROSZAK, M., MAMYS, M., PYKA, D., BOCIAN, M., and JAMROZIAK, K.

Subjects

*NUMERICAL analysis, *SHOOTING (Sports), *TISSUE analysis, *BIOMEDICAL materials, *BIOMEDICAL engineering

Published

2023

169. Reply to 'Entanglement growth in diffusive systems with large spin'.

Author

Žnidarič, Marko

Subjects

*BALLISTICS, *HILBERT space

Published

2021

170. Operation and design of metal-oxide tunnel transistors.

Author

Rendell, R.W. and Buot, F.A.

Subjects

*BALLISTICS, *METALLIC oxides, *TRANSISTORS

Abstract

Examines the calculation of the current-voltage (I-V) characteristics within the ballistic limit involving the metal-oxide tunnel transistors (MOTT). What the gate transconductance improves; Discussion on the saturation (knee) point and three modes of current transport across the device; How the low-voltage current saturation for MOTT is obtained.

Published

1998

171. SMART SCOPES.

Author

McKEAN, ANDREW

Subjects

*OPTICAL coatings, *FOCAL planes, *LIGHT transmission, *BALLISTICS, *OPTICAL elements

Published

2020

172. Development of a Multi-Energy Flash Computed Tomography Diagnostic for Three Dimensional Imaging of Ballistic Experiments.

Author

Zellner, Michael B., Champley, Kyle, McMichael, Larry, Martz, Harry, Cantrell, Ronald, Yonce, Corey E., Dudeck, Kenneth W., Benjamin, Chester A., Borys, Robert W., Schall, David R., Ducote III, Allen P., O'Connor, Thomas J., Nellenbach, Thomas E., Sturgill, Nathan J., Quigg, Thomas L., Halsey, Seth T., Benjamin, Jennifer A., and Huntzinger, Benjamin P.

Subjects

*COMPUTED tomography, *THREE-dimensional imaging, *BALLISTICS, *DETECTORS

Abstract

The U.S. Army Research Laboratory, in conjunction with Lawrence Livermore National Laboratory, is developing a Multi-Energy Flash Computed Tomography (MEFCT) diagnostic that will be used to capture tomographic image(s) of dynamic impact and detonation events. To accomplish dynamic tomography, the diagnostic uses numerous source--detector pairs to accumulate up to fifteen two-dimensional images, which are subsequently used to compute up to three three-dimensional tomographic reconstructions. The diagnostic is designed to provide either: a single-frame, threedimensional tomographic reconstruction that delineates material specificity throughout the field, or a three-frame tomographic reconstruction movie spaced in time, while lacking the information pertaining to the material specificity. This work assesses aspects of the diagnostic development including structural design, dynamic capability, instrument resolution and computational reconstruction. Examples of real-time measurements are provided from static phantom fiducials, as well as a dynamic experiment depicting a non-symmetric ballistic penetration to demonstrate the usefulness of the capability. [ABSTRACT FROM AUTHOR]

Published

2018

173. Ballistics Trajectory and Impact Analysis for Fragment Impact Testing Insensitive Munitions and Hazard Classification Project Criteria.

Author

van der Voort, Martijn and Baker, Ernest L.

Subjects

*BALLISTICS, *TRAJECTORIES (Mechanics), *BLUNT trauma, *PREDICTION models, *WOUNDS & injuries

Abstract

Ballistics trajectory and impact conditions calculations were conducted in order to investigate the origin of the projection criteria for Insensitive Munitions (IM) and Hazard Classification (HC). The results show that the existing IM and HC projection criteria distance-mass relations are based on launch energy rather than impact conditions. The analysis shows that at the maximum throw distances, the impact energy is generally much smaller than the launch energy. Using maximum distance projections, new distance-mass relations were developed that match the criteria based on impact energy at 15m and beyond rather than launch energy. Injury analysis was conducted using penetration injury and blunt injury models. Blunt injury dominates the assessment of injury or lethality. State of the art blunt injury models predict only minor injury for a 20J impact. For a 79 J blunt impact, major injury is likely to occur. [ABSTRACT FROM AUTHOR]

Published

2018

174. Gas Gun Ballistic Testing of Moving Pre-stressed Targets.

Author

Resnyansky, A. D., Parry, S. L., and Weckert, S. A.

Subjects

*WEAPONS testing, *MECHANICAL loads, *PROJECTILES, *BALLISTICS, *MOBILE operating systems

Abstract

Analyzing the response of modern mobile platforms to ballistic impact is a challenge due to target mobility and inherent structural loads. The present work involves an experimental and numerical analysis of ballistic impact against simulated moving targets that are pre-stressed. Realization of the target movement was achieved by launching an inclined elongated projectile at an oblique target, with equal inclination and obliquity resulting in an experimental set-up corresponding to normal impact of the target plate by the projectile with a transverse velocity component. The present experimental analysis considers impact by a 0.5" calibre projectile against the aluminium target, with the objective to analyze the target damage. The modelling results reasonably agree with the experiments. [ABSTRACT FROM AUTHOR]

Published

2018

175. Fabrication and characterization of high impact hybrid matrix composites from thermoset resin and dyneema-glass fabric reinforcement.

Author

Patel, R. H., Sharma, S., Pansuriya, T., Malgani, E. V., Sevkani, V., Shekhawat, Manoj Singh, Bhardwaj, Sudhir, and Suthar, Bhuvneshwer

Subjects

*THERMOSETTING composites, *THERMOPLASTIC composites, *EPOXY resins, *RAW materials, *TEXTILES, *BALLISTICS

Abstract

Hybrid composites have been fabricated by hand lay-up technique with epoxy resin and diethylene tri amine as a hardener for high impact energy absorption with sandwich stacking of different reinforcements of dyneema and glass fabric. High impact grade composites are nowadays gaining a lot of importance in the field of high mechanical load bearing applications, ballistics and bulletproofing. The present work emphases on the fabrication and mechanical properties of the hybrid composites of cut resistant dyneema fabric along with glass fabric reinforced in the thermosetting resin. i.e. epoxy. The prime importance while fabricating such materials have been given to the processing along with selection of the raw materials. High impact resistive materials with low density and henceforth low weight have been manufactured and characterized by IZOD impact tester, UTM, Archimedes density meter and SEM. Throughout the work, satisfactory results have been obtained. Impact resistance was observed to be boosted three times as that of the reference sample of glass fabric and epoxy. The density of the hybrid composite is observed to be 25% as that of the reference sample. [ABSTRACT FROM AUTHOR]

Published

2018

176. Simulation of impact ballistic of Cu-10wt%Sn frangible bullet using smoothed particle hydrodynamics.

Author

Hidayat, Mas Irfan P., Widyastuti, and Simaremare, Peniel

Subjects

*BALLISTICS, *BULLETS, *COPPER, *HYDRODYNAMICS, *FINITE element method

Abstract

Frangible bullet is designed to disintegrate upon impact against a hard target. Understanding the impact response and performance of frangible bullet is therefore of highly interest. In this paper, simulation of impact ballistic of Cu-IOwt%Sn frangible bullet using smoothed particle hydrodynamics (SPH) method is presented. The frangible bullet is impacted against a hard, cylindrical stainless steel target. Effect of variability of the frangible bullet material properties due to the variation of sintering temperature in its manufacturing process to the bullet frangibility factor (FF) is investigated numerically. In addition, the bullet kinetic energy during impact as well as its ricochet and fragmentation are also examined and simulated. Failure criterion based upon maximum strain is employed in the simulation. It is shown that the SPH simulation can produce good estimation for kinetic energy of bullet after impact, thus giving the FF prediction with respect to the variation of frangible bullet material properties. In comparison to explicit finite element (FE) simulation, in which only material/element deletion is shown, convenience in showing frangible bullet fragmentation is shown using the SPH simulation. As a result, the effect of sintering temperature to the way of the frangible bullet fragmented can be also observed clearly. [ABSTRACT FROM AUTHOR]

Published

2018

177. EXPANSION WEAPONS AND THEIR WOUNDING POTENTIAL.

Author

Ficek, Martin, Juříček, Ludvík, and Michala, Mikuličová

Subjects

*WEAPONS, *GELATIN, *BALLISTICS, *FORENSIC medicine, *TRAUMATOLOGY

Abstract

In the world, there is an increasing trend in the use of weapons. This trend is also reflected in expansion weapons. For example, in the Czech Republic, the increase is quite marked. This is both legal use in defense and illegal use. This fact needs to be addressed. This article deals with the wounding potential of expansion weapon. A ballistic experiment was used to Assess the potential of the expansion weapon. A non-homogeneous block of ballistic gelatin was shot by an expansion weapon from a relative proximity. Sprue tracking was recorded using a high-speed camera. The monitored parameters were the shape, dimensions and volume of the permanent and temporary cavity created in ballistic gelatin. Subsequently, the injury profile method was applied. The results were subjected to quantitative and qualitative assessment. The acquired findings can be used in the field of forensic medicine, war surgery, traumatology and experimental ballistic balancing. [ABSTRACT FROM AUTHOR]

Published

2018

178. Charging Conditions Research To Increase The Initial Projected Velocity At Different Initial Charge Temperatures.

Author

Ishchenko, Aleksandr, Burkin, Viktor, Kasimov, Vladimir, Samorokova, Nina, Zykovae, Angelica, and Diachkovskii, Alexei

Subjects

*DEFENSE industries, *BALLISTICS, *COMBUSTION chambers, *PRESSURE, *MUZZLE-loading firearms

Abstract

The problems of the defense industry occupy the most important place in the constantly developing modern world. The daily development of defense technology does not stop, nor do studies on internal ballistics. The scientists of the whole world are faced with the task of managing the main characteristics of a ballistic experiment. The main characteristics of the ballistic experiment are the maximum pressure in the combustion chamber Pmax and the projected velocity at the time of barrel leaving UM. During the work the combustion law of the new high-energy fuel was determined in a ballistic experiment for different initial temperatures. This combustion law was used for a parametric study of depending Pmax and UM from a powder charge mass and a traveling charge was carried out. The optimal conditions for loading were obtained for improving the initial velocity at pressures up to 600 MPa for different initial temperatures. In this paper, one of the most promising schemes of throwing is considered, as well as a method for increasing the muzzle velocity of a projected element to 3317 m/s. [ABSTRACT FROM AUTHOR]

Published

2017

179. Analysis of Entry of Additional Energy to Gunpowder in Electrothermal Chemical Shot.

Author

Burkin, Viktor, Ishchenko, Alexandr, Kasimov, Vladimir, Samorokova, Nina, and Sidorov, Aleksey

Subjects

*GUNPOWDER, *BALLISTICS, *ELECTRIC discharges, *PLASMA diodes, *PHYSICS

Abstract

In the article two series of ballistic experiments conducted according to the scheme of electrothermal chemical control of ballistic parameters of the shot at the Research Institute of Applied Mathematics and Mechanics of Tomsk State University (RIAMM TSU, Russia) are considered. The experimental part of the work is described. The analysis of the electro physical data of ballistic experiments is carried out. A methodical approach that allows to take into account the entry of an electric discharge plasma in a gunpowder in the mathematical model of internal ballistic processes in barrel systems is proposed and tested. Under the conditions of these experiments, the effects of various characteristics of the plasmatron on the nature of the energy entry are estimated. [ABSTRACT FROM AUTHOR]

Published

2017

180. Optimization of Aerodynamic Form of Projectile for Solving the Problem of Shooting Range Increasing.

Author

Lipanov, Alexey M., Korolev, Stanislav A., and Rusyak, Ivan G.

Subjects

*BALLISTICS, *EQUATIONS of motion, *AERIAL projectiles, *HYDRODYNAMICS, *ARTILLERY

Abstract

The article is devoted to the development of methods for solving the problem of external ballistics using a more complete system of motion equation taken into account the rotation and oscillation about the mass center and using aerodynamic coefficients of forces and moments which are calculated on the basis of modeling the hydrodynamics of flow around the projectile. Developed methods allows to study the basic ways of increasing the shooting range or artillery. [ABSTRACT FROM AUTHOR]

Published

2017

181. Concept and Numerical Simulations of a Reactive Anti-Fragment Armour Layer.

Author

Hušek, Martin, Kala, Jiří, Král, Petr, and Hokeš, Filip

Subjects

*COMPUTER simulation, *PROJECTILES, *ARMORED vehicles, *BALLISTICS, *IRON & steel plates, *FINITE element method, *HYDRODYNAMICS

Abstract

The contribution describes the concept and numerical simulation of a ballistic protective layer which is able to actively resist projectiles or smaller colliding fragments flying at high speed. The principle of the layer was designed on the basis of the action/reaction system of reactive armour which is used for the protection of armoured vehicles. As the designed ballistic layer consists of steel plates simultaneously combined with explosive material - primary explosive and secondary explosive - the technique of coupling the Finite Element Method with Smoothed Particle Hydrodynamics was used for the simulations. Certain standard situations which the ballistic layer should resist were simulated. The contribution describes the principles for the successful execution of numerical simulations, their results, and an evaluation of the functionality of the ballistic layer. [ABSTRACT FROM AUTHOR]

Published

2017

182. Computational fluid-dynamic modeling of the internal ballistics of paraffin-fueled hybrid rocket.

Author

Di Martino, G.D., Mungiguerra, S., Carmicino, C., and Savino, R.

Subjects

*ALKANES, *ENERGY consumption, *BALLISTICS, *COMPUTATIONAL fluid dynamics, *COMBUSTION efficiency, *AUTOMOTIVE fuel consumption

Abstract

Computational fluid dynamics is becoming a key tool for reducing the hybrid rocket operation uncertainties and development cost, but numerous challenges, due to the complexity of modeling the solid fuel consumption mechanism and the interaction with the reacting flowfield, have still to be addressed. These latter features are further complicated with paraffins for the melted-fuel entrainment phenomenon. This paper presents a computational thermo-fluid-dynamic model of the internal ballistics of hybrid rockets burning gaseous oxygen and paraffin-based fuel. With the purpose of predicting the local fuel regression rate, the model is coupled with an improved gas/fuel-surface interface treatment based on local mass, energy and mean mixture fraction balances, combined to an additional analytical equation for the calculation of the entrainment fraction of the fuel consumption rate. Parametric analyses are carried out to assess the effect of fuel properties on the regression rate. Several experimental test cases, obtained from static firing of a laboratory-scale rocket, are simulated. Calculated regression rates show an error with respect to the measured data around 10% in the worst case. Chamber pressure is predicted with lower accuracy, with errors less than 20%; the main factor of deviation is shown to be the estimation of the combustion efficiency. [ABSTRACT FROM AUTHOR]

Published

2019

183. The analysis of organic and inorganic gunshot residue from a single sample.

Author

Goudsmits, Ellen, Blakey, Lauren S., Chana, Kal, Sharples, George P., and Birkett, Jason W.

Subjects

*GUNSHOT residues, *FORENSIC chemistry, *SHOOTERS of firearms, *SOLID phase extraction, *GAS chromatography/Mass spectrometry (GC-MS)

Abstract

The detection and interpretation of gunshot residue (GSR) can play an important role in the investigation of firearm related incidents. Recently, the potential of organic compounds to provide an additional means to discriminate between GSR and environmental particles, in particular in cases where lead-free ammunition is used, has been highlighted. This work describes a method for the extraction and detection of complementary organic and inorganic compounds from a single GSR sample, using a methodology that makes implementation in the current standard procedure feasible. GSR samples were collected from the shooter's hands following double and single discharges, using the traditional adhesive carbon aluminium stubs. Analysis of organic compounds was performed using solid-phase microextraction gas chromatography mass spectrometry (SPME-GC-MS), followed by analysis of the traditional inorganic particles using scanning electron microscopy coupled with energy-dispersive X-ray spectroscopy (SEM-EDX). Detection of both categorised organic GSR compounds (e.g. ethyl centralite, diphenylamine and 2-nitrodiphenylamine) and characteristic inorganic GSR has been achieved. Given the fact that the detected organic GSR compounds are relevant with respect to the confirmation of GSR materials, this method has successfully demonstrated the ability to obtain a total chemical profile from a single GSR sample, which has the potential to increase the probative value of GSR evidence. [ABSTRACT FROM AUTHOR]

Published

2019

184. Simulation and Robust Optimization Design for Electromagnetic Railgun Performance.

Author

Shang, Xiaobing, Chao, Tao, Ma, Ping, and Yang, Ming

Subjects

*ROBUST optimization, *POLYNOMIAL chaos, *ENERGY consumption, *FACTOR analysis, *GENETIC algorithms, *BALLISTICS

Abstract

Energy efficiency is a critical quantity of interest in the performance of electromagnetic railgun (EMRG). To improve the energy efficiency of EMRG with the presence of uncertainty, a hybrid robust optimization method is proposed. EMRG simulation model is developed to simulate the behavior of exterior ballistics and the corresponding robust optimization issue is formulated. With the help of the impact factor analysis, several significant factors of energy efficiency are selected as the design variables while the insignificant ones are not taken into account. In the robust optimization, the polynomial chaos expansion approach coupled with Latin hypercube design is proposed to propagate the uncertainty for alleviating the computational burden of fitness function (energy efficiency) evaluation. Then, the genetic algorithm is employed to solve the EMRG energy efficiency optimization problem with the constraint of mean miss distance. The optimization results illustrate that the hybrid robust optimization method is an efficient approach to improve the energy efficiency, which can be applied in the practical application of EMRG projectile design. [ABSTRACT FROM AUTHOR]

Published

2019

185. Effect of Lode angle in predicting the ballistic resistance of Weldox 700 E steel plates struck by blunt projectiles.

Author

Xiao, Xinke, Wang, Yaopei, Vershinin, Vladislav V., Chen, Lin, and Lou, Yanshan

Subjects

*BALLISTICS, *IRON & steel plates, *DUCTILITY, *COMPUTER simulation, *FINITE element method

Abstract

Highlights • Ballistic impact tests on 4 mm thick Weldox 700 E steel plates struck by blunt rigid projectiles were conducted and a failure mode of shear plugging was identified in the tests. • The strength and fracture models of the steel were calibrated using a hybrid experimental-numerical method. • FE simulations were carried out by using either a modified version of the Johnson-Cook (MJC) fracture criterion or the Lode dependent Modified Mohr–Coulomb (MMC) fracture criterion. • FE simulations using the MJC and MMC fracture criteria predicted almost the same ballistic performance of the targets. • For targets of Lode dependent fracture, FE simulations showed that the Lode dependent fracture criterion would predict a much lower ballistic limit for less ductile targets. However, for targets with high ductility, introducing the Lode angle into the fracture criterion would not obviously alter the ballistic limit prediction. Abstract The necessity of incorporating the Lode angle into a fracture criterion in predicting ballistic resistance of ductile metal plates has not been well elucidated so far although the ductility of a metal may be Lode dependent. In this paper, 4.0 mm thick Weldox 700 E steel plates were fired by 5.95 mm diameter blunt rigid projectiles in a one-stage gas gun in the impact velocity range of 141.2 m/s∼275.7 m/s. A failure mode of shear plugging was observed in the test and the ballistic limit was obtained by fitting the initial-residual velocity data. An axisymmetric finite element (FE) model corresponding to the test was built in ABAQUS and then was utilized to predict the ballistic resistance and fracture behavior of the targets. In the FE model, a slightly modified Johnson-Cook constitutive relation was companied by either a Lode independent modified Johnson-Cook (MJC) or the Lode dependent modified Mohr–Coulomb (MMC) fracture criterion. The plasticity and fracture of the metal were fully calibrated by a series of mechanical tests under varying stress states, strain rates and temperatures. According to the tests and parallel FE simulations, it was found that the fracture of Weldox 700 E is obviously Lode dependent. However, ballistic simulations using the MMC and MJC fracture criterion predicted very close ballistic limit velocity and similar shear plugging failure mode when compared with the test results. The dominant stress state of the material failed in the process of shear plugging was revealed by detailed FE analysis and it was found that the ductility of the metal is quite different on the dominant stress state according to the two fracture criteria. To interpret the current simulation results, further FE simulations were carried out on fictitious metals and it was found that for less ductile metallic plates the MMC fracture criterion predicts a much lower ballistic limit velocity (as much as 22%) when compared with the simulation result from the MJC fracture criterion. In contrast, for metal plates with high ductility, the simulations from the two different fracture criteria would produce quite close ballistic limit velocity predictions. [ABSTRACT FROM AUTHOR]

Published

2019

186. Ballistic performance of Cross-laminated Timber (CLT).

Author

Sanborn, K., Gentry, T.R., Koch, Z., Valkenburg, A., Conley, C., and Stewart, L.K.

Subjects

*TIMBER, *SOUTHERN pines, *PENETRATION depth (Superconductors), *PARAMETER estimation

Abstract

Highlights • Created first-ever public ballistic data set for Cross-laminated Timber. • Related the ballistic performance to the species of wood found in the CLT (Spruce Pine Fir – South and Southern Yellow Pine). • Developed and calibrated models for predicting the embedment depth as well as residual velocity. Abstract Cross-laminated Timber (CLT) is a relatively new building material that has gained recent attention in the United States construction industry. CLT is a prefabricated, engineered wood product, composed of three or more plies of lumber with alternating ply directions. CLT is relatively strong and stiff, with the potential to meet the requirements for structures that are subjected to a variety of loading conditions. While CLT's response to static, dynamic (i.e., seismic), and fire loads has been characterized in the past, its response to the loads seen in force protection scenarios (i.e., blast or ballistic) is much less understood. In order to begin to fill this gap in knowledge, one of the first known sets of ballistic experiments were conducted on CLT and the results were used to develop and validate predictive models. This article describes the results of 122 ballistic experiments conducted at the United States Army Engineer Research and Development Center (ERDC). The experiments were conducted on two species of CLT of varying thicknesses: Spruce Pine Fir-South and Southern Yellow Pine. The experiments measured either penetration depth or residual velocity over a range of intermediate striking velocities. The effects of weathering (i.e., moisture content) were also explored on a data set. The results of the experiments were compared to existing United States Unified Facilities Criteria models for predicting the ballistic response of wood. The findings show the deficiencies in utilizing this wood model for CLT and explore alternate models for prediction. In general, it was found that models that incorporate both projectile and CLT target parameters most accurately predict the response. Most importantly, the results reinforce the necessity for re-calibration of models as new parameters are added to the CLT ballistic characterization database. [ABSTRACT FROM AUTHOR]

Published

2019

187. Optimized training for jumping performance using the force-velocity imbalance: Individual adaptation kinetics.

Author

Jiménez-Reyes, Pedro, Samozino, Pierre, and Morin, Jean-Benoît

Subjects

*PHYSIOLOGICAL adaptation, *TRAINING, *CLASSICAL mechanics, *STRENGTH training

Abstract

Aims: We analysed the changes in force-velocity-power variables and jump performance in response to an individualized training program based on the force-velocity imbalance (FVimb). In particular, we investigated (i) the individual adaptation kinetics to reach the optimal profile and (ii) de-training kinetics over the three weeks following the end of the training program. Methods: Sixty subjects were assigned to four sub-groups according to their initial FVimb: high or low force-deficit (FD) and high or low velocity-deficit (VD). The duration of training intervention was set so that each individual reached their “Optimal force-velocity (F-v) profile”. Mechanical and performance variables were measured every 3 weeks during the program, and every week after the end of the individualized program. Results: All subjects in the FD sub-groups showed extremely large increases in maximal theoretical force output (+30±16.6% Mean±SD; ES = 2.23±0.28), FVimb reduction (-74.3±54.7%; ES = 2.17±0.27) and large increases in jump height (+12.4±7.6%; ES = 1.45±0.23). For the VD sub-groups, we observed moderate to extremely large increases in maximal theoretical velocity (+15.8±5.1%; ES = 2.72±0.29), FVimb reduction (-19.2±6.9%; ES = 2.36±0.35) and increases in jump height (+10.1±2.7%; ES = 0.93±0.09). The number of weeks needed to reach the optimal F-v profile (12.6 ± 4.6) was correlated to the magnitude of initial FVimb (r = 0.82, p<0.01) for all participants regardless of their initial subgroup. No significant change in mechanical variables or jump performance was observed over the 3-week de-training period. Conclusions: Collectively, these results provide useful insights into a more specific, individualized (i.e. based on the type and magnitude of FVimb) and accurate training prescription for jumping performance. Considering both training content and training duration together with FVimb may enable more individualized, specific and effective training monitoring and periodization. [ABSTRACT FROM AUTHOR]

Published

2019

188. The effect of primer cap material on ballistic toolmark evidence.

Author

Addinall, K., Zeng, W., Bills, P., Wilcock, P.T., and Blunt, L.

Subjects

*BALLISTICS, *SCANNING electron microscopes, *TOPOGRAPHY, *CRIMINAL investigation, *GRAYSCALE model

Abstract

There has recently been an increase in the research and implementation of advanced measurement techniques to ballistic toolmark identification. This has led to a shift from greyscale imaging to the acquisition of dense areal datasets. With the addition of mathematical correlation algorithms, these advanced techniques will be advantageous in criminal investigation. However, with the use of areal topography comes the addition of height point data which may differ in primer caps of varying material composition. This study discusses the differences in the overall topography of firing pin impressions in different primer cap materials, and the effect it has on the successful correlation of ballistic toolmark evidence. [ABSTRACT FROM AUTHOR]

Published

2019

189. The experimental and numerical investigation on the ballistic limit of BB-Gun pellet versus skin simulant.

Author

Jin, Yongxi, Haitao, Lu, Cheng, Wu, Wang, Xiaolin, Han, Ruiguo, Li, Rongting, and Dong, Dongfang

Subjects

*BALLISTICS, *DIMENSIONAL analysis, *PUBLIC safety, *KINETIC energy, *COMPUTER simulation, *SKIN injuries, *ANIMALS, *BIOLOGICAL models, *CATTLE, *FINITE element method, *FIREARMS, *FORENSIC ballistics, *GUNSHOT wounds, *PROTEINS

Abstract

The insufficient recognition of injuries by the BB-gun (regarded as toys for children) has led to its increasing misuse without permission, which has caused many public safety issues. Aiming to enhance the understanding of the injuries by the BB-gun, the experimental and numerical study of BB-Gun pellet penetrating "cowhide + gelatine" composite target was comprehensively carried out. It was confirmed from the experiment that BB-Gun is capable of inflicting severe or fatal wounds to important organs, and perforating the skin or not could be employed to evaluate the safety of BB-guns. Moreover, three forms of ballistic limit (including: velocity, kinetic energy and specific kinetic energy) of typical BB were calculated and analyzed by reasonably validated numerical simulation method. Additionally, a formulation was acquired by dimensional analysis based on the simulation results and was verified to accurately predict the ballistic limit velocity of BB with different mechanical properties. The method may help to improve the understanding on the minimal velocity needed to perforate skin and may be advised as the determination of the safety of BB-gun. [ABSTRACT FROM AUTHOR]

Published

2019

190. Numerical Study on Internal Ballistics Characteristics of a Solid Propellant Rocket Motor.

Author

RAČKAUSKAS, Saulius, FEDARAVIČIUS, Algimantas, and SURVILA, Arvydas

Subjects

*SOLID propellants, *PROPELLANTS, *ROCKET engines, *BALLISTICS, *PERSONAL computers, *COMPUTER simulation

Abstract

The viability of numerical simulations to design a solid propellant rocket motor, as opposed to static testing, is discussed in this paper. The results demonstrate that an objectively more detailed insight into the processes taking place within the motor in active combustion can be gained by employing computer simulations. The abundance of readily available computing power allows complex simulations to be run on personal desktop computers, thus, saving money by eliminating the need for static testing during the design phase of the motor. The computer simulation results are validated by a comparison with test data gathered during static tests on the motor. In this study, an RM-12K solid propellant rocket motor is designed and developed, which is currently used in real-world air defence training applications, and therefore, sufficient empirical data are available. The numerical method, based on computer simulations using personal computers, is sufficiently accurate to allow for motor design decisions and an adequate substitute for static testing. Even though a single simulation can take up to 715 h on an 8-core personal machine, it is still an effective solution. [ABSTRACT FROM AUTHOR]

Published

2019

191. Projectile impact on fabric-metal assemblies – Influence of fabric-metal sequence.

Author

Guo, Y.B., Chiang, H.J., Deng, J.J., and Shim, V.P.W.

Subjects

*METALS, *BALLISTICS, *PHYSICS, *TEXTILES, *METAL plate processes (Lithography)

Abstract

Highlights • Ballistic resistance evaluated for fabric-metal assemblies, as well as their metal and fabric components. • Significant effect of fabric-metal sequence on ballistic resistance of fabric-metal assemblies, which varies with number of fabric plies in the assembly. • Analysis of interaction between fabric plies and metal plate for various fabric-metal sequences. • Explanation of the influence of fabric-metal sequence on ballistic resistance based on the interaction between fabric plies and metal plate. Abstract Fabrics woven from high-strength fibres are increasingly employed for protection against projectile impact, because of superior mechanical properties. In some applications, high-strength fabrics are combined with metallic components to provide sufficient structural rigidity and strength – e.g. for vehicle bodies, turbine engine fragment barriers, building doors, etc. An understanding of how the fabric-metal layer sequence affects the resulting ballistic resistance, is essential for effective design of such fabric-metal assemblies. This motivates the current study, whereby multiple plies (1, 2 or 4) of Twaron (T) aramid fabric were combined with an aluminium alloy (A) thin plate to form a lightweight protective panel. The projectile impact penetration resistance of three types of fabric-metal arrangements were examined – i) the aluminium alloy plate as the impact face; ii) the Twaron fabric as the impacted layer; iii) the aluminium alloy plate sandwiched between fabric layers. For assemblies with a smaller number of fabric plies (i.e. 1 or 2), siting the aluminium alloy plate as the rearmost layer results in a significantly higher impact energy absorption capacity, compared to having the aluminium alloy plate as the impact face – e.g. for (A+1T) assemblies, i.e. Al plate+1 ply of Twaron, 1T/A (impact face layer appears first in this nomenclature) performs much better than A/1T. For (A+2T) assemblies, 2T/A provides the highest impact resistance, A/2T is the weakest, and 1T/A/1T lies in between. However, when the number of fabric plies is increased to 4, a variety of responses was observed. An A/4T configuration absorbs significantly higher energy than a 4T/A arrangement, while a symmetrical 2T/A/2T sequence absorbs less energy than either an A/4T or 4T/A configuration. High-speed optical photography images and post-test specimens were analysed, to examine the deformation and failure modes of the fabric plies and Al plate in the fabric-metal targets, and how they are affected by the fabric-metal sequence. These help identify the interaction between the fabric plies and Al plate for various fabric-metal sequences, in order to account for the phenomena observed in experiments. [ABSTRACT FROM AUTHOR]

Published

2019

192. An Approach to Analysing Erosive Characteristics of Two-Channel Combustion Chambers.

Author

Ma, Yanjie, Bao, Futing, Hui, Weihua, Liu, Yang, and Wei, Ran

Subjects

*COMBUSTION chambers, *PROPELLANTS, *ROCKET engines, *CHANNEL flow, *BALLISTICS

Abstract

To acquire the erosive characteristics of two-channel combustion chambers, a quasi-one-dimensional internal ballistics model is proposed. Combining the model with two different erosive burning models, the modified L-R expression, and the Mukunda-Paul expression, the flow parameters and the internal ballistics performance of a test solid rocket motor are computed. The results show good agreement with experimental data. According to the results, the more severe the erosion is, the earlier, longer, and gentler the tail-off stage becomes. During the tail-off stage, the dramatic drop of pressure leads to a low normal burning rate and makes it easier for erosion burning to occur. For this reason, notable erosive burning might appear during tail-off if the case-to-throat area ratio is extremely low. The results also show that flows in the inner channel and the outer channel are similar but not identical. This leads to different erosive burning behaviours in the two channels. Also, the two erosive burning rate models involved in this paper are compared. It seems that the M-P expression provides better results than the modified L-R expression does, since it reveals the threshold phenomena. Besides, the M-P expression has great advantages for its universality for most propellants and different SRM geometries. [ABSTRACT FROM AUTHOR]

Published

2019

193. High-throughput characterisation of bull semen motility using differential dynamic microscopy.

Author

Jepson, Alys, Arlt, Jochen, Statham, Jonathan, Spilman, Mark, Burton, Katie, Wood, Tiffany, Poon, Wilson C. K., and Martinez, Vincent A.

Subjects

*SEMEN, *FISH locomotion, *SPERM motility, *CYTOLOGY, *MICROSCOPY, *PHYSICAL sciences, *BODY fluids

Abstract

We report a high-throughput technique for characterising the motility of spermatozoa using differential dynamic microscopy. A movie with large field of view (∼10mm2) records thousands of cells (e.g. ≈ 5000 cells even at a low cell density of 20 × 106 cells/ml) at once and yields averaged measurements of the mean () and standard deviation (σ) of the swimming speed, head oscillation amplitude (A0) and frequency (f0), and the fraction of motile spermatozoa (α). Interestingly, we found that the measurement of α is facilitated because the swimming spermatozoa enhance the motion of the non-swimming population. We demonstrate the ease and rapidity of our method by performing on-farm characterisation of bull spermatozoa motility, and validate the technique by comparing laboratory measurements with tracking. Our results confirm the long-standing theoretical prediction that for swimming spermatozoa. [ABSTRACT FROM AUTHOR]

Published

2019

194. Ballistic reliability study on SiC/UHMWPE composite armor against armor-piercing bullet.

Author

Shen, Zhiwei, Hu, Dean, Yang, Gang, and Han, Xu

Subjects

*BALLISTICS, *COMPOSITE materials, *ARMOR, *BULLETS, *POLYETHYLENE

Abstract

Abstract The ballistic reliability of composite armors is significantly affected by the random material properties. In this paper, the mosaic SiC ceramics/ultra high molecular weight polyethylene (UHMWPE) composite targets with bonding adhesives are tested near the limit ballistic penetration conditions. The uncertain material and adhesive properties led to complete penetration and partial penetration at bullet initial velocity of 776 m/s and 791 m/s, respectively, and a contrary tendency is also observed in the tests between the bulging deformation and the minimum target thickness of back plate. A state function of penetration for reliability evaluation is formulated based on a validated numerical model. Results from sensitivity analysis indicate that twelve uncertain material parameters are strongly sensitive to the penetration state. Then, the ballistic reliability under the test velocities is obtained by both Monte Carlo method and design point method. Finally, an optimization problem with a probability constraint is established in order to achieve a minimum deformation. The results show that the bulging deformation and the value of penetration state function vary with the adhesive strengths oppositely. Therefore, the adhesive strengths are designed to control the contradiction between the deformation and the minimum target thickness. It is significant to recognize the uncertain properties of composite armors and to improve the ballistic performance against armor-piercing bullet. [ABSTRACT FROM AUTHOR]

Published

2019

195. Modeling the spatio-thermal fire hazard distribution of incandescent material ejecta in manufacturing.

Author

Zohdi, T. I.

Subjects

*FIRE prevention, *KINETIC energy, *FIRE risk assessment, *FIRE, *BALLISTICS

Abstract

A mathematical model is developed to characterize the progressive time-evolution of a fragmenting incandescent object. The objective of these models is to provide a spatio-thermal footprint of the fragmentation field, which can be useful to guide fire safety rules in manufacturing workplaces, as well as to estimate fire hazards. Ascertaining the time-evolution of the temperature of the fragments is quite difficult to measure experimentally, which motivates the model development. Initially, analytical models based solely on ballistics, which provide qualitative trends, are developed to provide insight into the fundamental ratios that govern safe operating conditions. Thereafter, rapid numerical spatio-thermal models, which provide quantitative information, are then developed, based on particle methods. The model uses the released energy from the initial blast pulse to provide the starting kinetic energy of the system of particles and then numerically computes the trajectory and thermal state of the fragments under the influence ofdrag from the surrounding air,gravitational settling andconvective and radiative cooling. Numerical examples and provided and extensions to high-fidelity are discussed. [ABSTRACT FROM AUTHOR]

Published

2019

196. Pre-eruptive conditions and pyroclastic emplacement of the last known vulcanian eruption of Azufral Volcano, SW Colombia.

Author

Castilla, Silvia C., Pardo, Natalia, Larrea, Patricia, Zuluaga, Carlos A., Sarmiento, Sergio, Noguera, David, and Sarmiento, Gustavo A.

Subjects

*VOLCANIC eruptions, *LAVA domes, *ANALYTICAL geochemistry, *DENSITY currents, *MINERALOGY, *BALLISTICS

Abstract

Azufral is one of the most touristic, but also one of the most explosive active volcanoes of SW-Colombia. Although no historical eruptions have occurred, the potential thread is inferred from the predominance of dacitic pyroclastic units and lava domes since the Holocene. This paper presents new stratigraphical and compositional data of the uppermost and thickest proximal pyroclastic deposits exposed on the current inner and outer SE crater rim. The studied eruption units correspond to parallel and low-angle cross-bedded vitric-crystalline to lithic-crystalline tuffs. The absence of interbedded paleosols or epiclastic deposits indicates continuous eruptive activity throughout the studied succession. Criteria for stratigraphic package division at proximal sites includes erosive contacts, marked changes in grain sizes, and ballistic-bearing horizons. Each package comprises several bedsets consisting of two to three beds of distinctive lithofacies associations suggesting deposition from diluted pyroclastic density currents. Temporary partial or total conduit obstruction conditions could also be inferred from the presence of ballistic horizons. Petrographical and geochemical analyses from a type-bedset with fresh, poorly to moderately vesicular rhyolitic glassy particles and the mineral association Pl + Amp + Bt + Fe-Ti oxides ± Qz microcrysts suggest the presence of juvenile material. Textures and mineralogy of glassy ash particles are the same as those in large ballistic blocks, which are dacitic in whole-rock composition. Geochemical analyses suggest that magma evolution was mainly controlled by Pl + Amp + Bt + Py + Fe-Ti oxides fractionation and magma recharge events. All Pl and Amp microcrysts in the studied juvenile ash and ballistics can be grouped into two populations: (i) unzoned microcrysts and (ii) zoned microcrysts. Zoned microcrysts have evolved and partially corroded cores, coated by a more Mg-rich (Amp) or An-rich (Pl) mantle, and followed by an outermost Fe-rich (Amp) or Ab-rich (Pl) rim that broadly overlaps with the composition of the unzoned microcrysts. Textures, mineral composition, and pre-eruptive conditions obtained from similar-sized Amp, Pl and Fe-Ti oxide microcrysts within the juvenile ash and a juvenile ballistic provide evidence of complex crystallization paths before final decompression and eruption. • Dacitic vulcanian explosions lead to hazardous proximal surges. • Comparing fresh glassy ash and ballistics helps to discern the juvenile or accessory provenance of pyroclasts. • Crystal populations unravel hints on the subvolcanic context. • Co-existing microcrysts had at least two different crystallization paths. • Magma recharge took place before eruption. [ABSTRACT FROM AUTHOR]

Published

2019

197. Ballistic performance and energy absorption characteristics of thin nickel-based alloy plates at elevated temperatures.

Author

Liu, Jiao, Zheng, Bailin, Zhang, Kai, Yang, Biao, and Yu, Xiaoqiang

Subjects

*AIRPLANE motors, *NICKEL alloys, *STRUCTURAL plates, *BALLISTICS, *EFFECT of temperature on metals, *ABSORPTION

Abstract

Abstract To study the aeroengine containment capability at high temperatures, experimental and numerical investigations have been carried out to determine the ballistic performance and energy absorption characteristics of GH4169 alloy thin plates at temperatures ranging from 25–600 °C. First, experiments were conducted using a gas gun. Target plates were impacted by projectiles with various initial velocities. The effects of the temperature and initial velocity on the deformation, failure pattern and energy absorption of the plate were correspondingly obtained. The experimental results showed that at higher temperature, the deformation of the target plates is greater, the energy absorbed by the target plates is smaller and the ballistic limit velocities are lower. The petal deformation of the target plate caused by bending is severe at the temperature of 600°C. Second, numerical simulations of the impact were conducted by an explicit dynamics FE code (LS-DYNA). The Johnson-Cook constitutive model with parameters obtained from split Hopkinson pressure bar (SHPB) experiments was used to describe the materials properties of the plates at various temperatures and strain rates. It was found that the numerical results are consistent with those obtained by the ballistic experiments. In addition, the results of the numerical simulations also showed that the ballistic limit velocity of the target plate exhibits an approximately linear relationship with the temperature of the target plate. The energy absorbed by the target plate is decreased by 18% and 9% at 600 °C and 300 °C, respectively, compared with that at 25 °C. [ABSTRACT FROM AUTHOR]

Published

2019

198. The effect of composition and morphological features on the striation of .22LR ammunition.

Author

Manzalini, Valentina, Frisia, Michele, Casolari, Monica, and Causin, Valerio

Subjects

*AMMUNITION, *SCANNING electron microscopes, *OPTICAL microscopes, *CHEMICALS, *FIREARMS, *BULLETS

Abstract

In this paper, the effect of the chemical composition of .22LR bullets was studied and correlated to the extent and quality of the markings left after shooting them with the same gun. Scanning electron microscopy and optical comparator microscopy equipped with 3D and profilometry modules were used as non destructive techniques with two main purposes. The first is to assist the firearm examiner in the choice of the ammunition most suitable for preparing the test bullets. The second is to propose an approach, crossing data from optical microscopy, profilometry and space-resolved chemical analysis, for explaining the morphology of striae, whether continuous or interrupted. Among the most notable results is the finding that commercial .22LR ammunition show very wide interbrand, interlot and intralot variability. A selection of test ammunition solely based on the same brand and model used on the crime scene is therefore not suitable, urging the need for a more accurate choice, based on a preliminary chemical analysis. [ABSTRACT FROM AUTHOR]

Published

2019

199. Assessment of humaneness using gunshot targeting the brain and cervical spine for cervid depopulation under field conditions.

Author

DeNicola, Anthony J., Miller, David S., DeNicola, Vickie L., Meyer, Robert E., and Gambino, Jennifer M.

Subjects

*GUNSHOT wounds, *BRAIN physiology, *CERVICAL vertebrae, *FIREARMS, *DEMOGRAPHIC change

Abstract

Population reduction or eradication of domestic or non-domestic species may be required to address their impacts on the environment, other species, or human interests. Firearms are often used to accomplish these practical management objectives, and there is increased concern that the methods used may compromise animal welfare. We document the accuracy and humaneness of gunshot placement to the brain and cervical vertebrae of Philippine deer (Rusa marianna) on Guam during depopulation activities as a model for meeting AVMA standards of euthanasia under field conditions (e.g., animal is not in hand). Deer were shot with a .223 caliber rifle from 10–125 m and approached immediately (<20 s) for assessment. A subset of adult deer was further evaluated for physiological responses including cessation of heart rate, respiration, ocular reflexes, and post-mortem spasms. All deer shot in the brain (n = 132) and upper cervical spine (C1—C3; n = 18) died immediately due to the destruction of the brain or spinal tissue. Shot placements were all within 1.9 cm of the point of aim (i.e., the center of the target region). The accuracy and immediate insensibility resulting from targeting of C1—C3 demonstrates that this is an alternative target site when animal positioning is not optimal for targeting the brain, or there is a need to preserve brain tissue (e.g., Chronic Wasting Disease testing). While targeting of C4 –C7 vertebrae (n = 6) was accurate and resulted in immediate incapacitation, the failure to produce immediate insensibility does not support the use of this shot placement when upper cervical or brain shot placement is an option. It is reasonable to achieve sufficient accuracy to target the brain or upper cervical vertebrae of deer under field conditions and meet standards of euthanasia while accomplishing management objectives. [ABSTRACT FROM AUTHOR]

Published

2019

200. Clinical education alone is sufficient to increase resistance training exercise prescription.

Author

Williams, Gavin and Denehy, Linda

Subjects

*RESISTANCE training, *EXERCISE physiology, *CLINICAL education, *GAIT in humans, *RANDOMIZED controlled trials

Abstract

A large body of evidence demonstrates that resistance training has been ineffective for improving walking outcomes in adults with neurological conditions. However, evidence suggests that previous studies have not aligned resistance exercise prescription to muscle function when walking. The main aim of this study was to determine whether a training seminar for clinicians could improve knowledge of gait and align resistance exercise prescription to the biomechanics of gait and muscle function for walking. A training seminar was conducted at 12 rehabilitation facilities with 178 clinicians. Current practice, knowledge and barriers to exercise were assessed by observation and questionnaire prior to and immediately after the seminar, and at three-month follow-up. Additionally, post-seminar support and mentoring was randomly provided to half of the rehabilitation facilities using a cluster randomised controlled trial (RCT) design. The seminar led to significant improvements in clinician knowledge of the biomechanics of gait and resistance training, the amount of ballistic (t = -2.38; p = .04) and conventional (t = -2.30; p = .04) resistance training being prescribed. However, ongoing post-seminar support and mentoring was not associated with any additional benefits F(1, 9) = .05, p = .83, partial eta squared = .01. Further, improved exercise prescription occurred in the absence of any change to perceived barriers. The training seminar led to significant improvements in the time spent in ballistic and conventional resistance training. There was no further benefit obtained from the additional post-seminar support. The seminar led to improved knowledge and significantly greater time spent prescribing task-specific resistance exercises. [ABSTRACT FROM AUTHOR]

Published

2019