Temperature Compensation and Improved Ballistic Performance in a Solid-Propellant Electrothermal-Chemical (SPETC) 40-mm Gun

Alimi, Roger; Bakshi, L.; Kot, E.; Sudai, M.

doi:10.1109/tmag.2006.887688

Cited by 8 publications

(3 citation statements)

References 14 publications

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“…Some of the other uses for electrothermal plasmas are for artillery propellants [4,5], thrusters for spacecraft or satellite applications [6][7][8], hypervelocity launchers [9][10][11], and high heat flux applications [12,13].…”

Section: Electrothermal Capillary Pellet Injectormentioning

confidence: 99%

The effect of pellet volume and aspect ratio on fuel pellet exit velocities in a capillary discharge mass accelerator

Gebhart

Holladay

Esmond

et al. 2013

2013 IEEE 25th Symposium on Fusion Engineering (SOFE)

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In magnetic or inertial fusion reactors, hydrogen, its isotopes, and lithium are used as fusion fueling materials. Lithium is considered a fusion fuel and not an impurity in fusion reactors as it can be used to produce fusion energy and breed fusion products. Lithium hydride and lithium deuteride may serve as good ablating sleeves for plasma formation in an ablation-dominated electrothermal plasma source to propel fusion pellets. Previous studies have shown that pellet exit velocities greater than 3 km/s are possible using low-z propellant materials. In this work, a comprehensive study of solid lithium hydride and deuteride as a pellet propellant is conducted using the ETFLOW code. Relationships between propellants, source and barrel geometry, pellet volume and aspect ratio, and pellet velocity are determined for pellets ranging in volume from 1 to 100 mm 3 .

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Section: Electrothermal Capillary Pellet Injectormentioning

confidence: 99%

The effect of pellet volume and aspect ratio on fuel pellet exit velocities in a capillary discharge mass accelerator

Gebhart

Holladay

Esmond

et al. 2013

2013 IEEE 25th Symposium on Fusion Engineering (SOFE)

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show abstract

“…In the past decades, a variety of technical approaches and regulatory mechanisms have been developed to obtain a low temperature sensitivity coefficient. Electrothermal chemical launcher technology [8,9] reduces the influence of temperature on the linear burning rate of propellants by adjusting the input electric energy [10,11]. Another regulatory mechanism is to compensate the decreasing burning rate by increasing burning surface of the propellant, such as prefabrication of microcracks [12][13][14], SCDB (surface coated double base) [15,16], ECL (extruded composite low sensitivity) [17,18] and EI (extruded impregnated) technologies [19,20].…”

Section: Introductionmentioning

confidence: 99%

Temperature Sensitivity Coefficients of RDX‐Based Propellants and Their Mixed Charges

You

Zhu

Liu

et al. 2021

Propellants Explo Pyrotec

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Low temperature sensitivity coefficients of gun propellants are of great significance for improving the stability of weapon performances. In this work, RDX-NC-NG-DEGDN propellants (R-MNEGP) were prepared to reduce the temperature sensitivity coefficient of mixed charges. The temperature sensitivity coefficients of R-MNEGP, NC-NG-DEGDN propellants (MNEGP) and their mixed charges were studied by closed vessel tests, scanning electron microscope (SEM), and ballistic firing experiments. The results show that the increased burning surface of R-MNEGP compensates the decrease in the burning rate of the propellant when the initial temperature is decreased compared with MNEGP. The temperature sensitivity coefficient of R-MNEGP is lower than that of MNEGP, and the temperature sensitivity coefficients of the mixed charges (R-MNEGP and MNEGP) are between these two temperature sensitivity coefficients in the range of À 40°C-20°C and 20°C-50°C. Compared with MNEGP, the velocity temperature sensitivity coefficients of the mixed charges with 6 wt % and 10 wt % R-MNEGP decreased by 34.86 % and 70.67 %, and the pressure temperature sensitivity coefficients of these decreased by 42.99 % and 100.90 % with increasing temperature from À 40°C to 15°C. And the velocity temperature sensitivity coefficients had no significant change, and the pressure temperature sensitivity coefficients decreased by 2.58 % and 77.98 % in the range of 15°C-50°C. This study offers an attractive strategy for tuning the temperature sensitivity coefficient by mixing charges of R-MNEGP and MNEGP with different temperature sensitivity coefficients.

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“…Mario Štiavnicky et al experimented with various composite materials to fabricate armour for the arm at 50 mm thickness with a lighter weight than other materials. They found that Kevlar fabric reduced the speed of a bullet MJ of power from a 1 GW power source increased the propulsion of a 300-gr projectile by 20% [3]. Finite element analysis (FEA) is often used for behavioral studies of variously-shaped bullets.…”

Section: Introductionmentioning

confidence: 99%

A Behavioral Study of Cylindrical Object Impacted by Bullet Using FEA

Saisueb

Woraratsoontorn

2018

International Journal of Natural Sciences Research

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Crime news has now become a popular mass media topic with offenders often using pocketknives and firearms. Pocketknives are inexpensive and easily obtained while in Thailand firearms have also become readily available. Some people are lucky and survive gunshot wounds; articles carried in their shirt pockets, especially a metal pen, may increase survival chances. Deformation behavior of a cylindrical object and a stainless steel pen impacted by a 9 mm FMJ (full metal jacket) bullet were investigated under various conditions. Finite element analysis (FEA) was applied to simulate different shooting conditions. Comparison of FEA shooting test simulation results revealed that a cylindrical object and stainless steel pen behaved in a similar manner. Simulation results can be useful to support forensic science examinations. Analysis of the findings indicated that having a stainless steel pen in your shirt pocket may improve the chances of surviving a bullet wound. Contribution/Originality: This study is one of very few studies which have investigated the chances of survival after being shot by a bullet. A simplified cylindrical object was used to replicate a stainless steel pen with a simulation using 3D finite element analysis.

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Temperature Compensation and Improved Ballistic Performance in a Solid-Propellant Electrothermal-Chemical (SPETC) 40-mm Gun

Cited by 8 publications

References 14 publications

The effect of pellet volume and aspect ratio on fuel pellet exit velocities in a capillary discharge mass accelerator

The effect of pellet volume and aspect ratio on fuel pellet exit velocities in a capillary discharge mass accelerator

Temperature Sensitivity Coefficients of RDX‐Based Propellants and Their Mixed Charges

A Behavioral Study of Cylindrical Object Impacted by Bullet Using FEA

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