A Method for Predicting Efficiency of Perforated Muzzle Brakes

Problemy Mechatroniki Pub Date : 2021-12-30 DOI:10.5604/01.3001.0015.5985

M. Czyżewska, R. Trębiński

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Abstract

This paper presents a method for predicting a value of a gasdynamic efficiency coefficient for perforated muzzle brakes. The method is based on the interior ballistics modelling for determining gasdynamic flow parameters at the brake inlet and 2D modelling the processes inside the brake with treating vents as circumferential slots. The modelling provides information about the mass flux time changes at the inlet and at the outlet of the brake. Using this information, the mass partition coefficient values and the gasdynamic efficiency coefficient values are calculated. It has been shown that the mass partition coefficient establishes very quickly and it is determined only by the geometry of the brake. The gasdynamic efficiency coefficient establishes after a relatively long time, what demands carrying out calculations for a relatively long time period. However, it has been shown that this problem can be solved by making use of the established ratio of mass fluxes at the outlet and the inlet. So, flow parameters’ values at the inlet are sufficient for determining the gasdynamic efficiency coefficient to the moment of attaining the final value. It has been shown that this value depends on the ballistics and on the vents inclination angle.

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一种预测穿孔炮口制动器效率的方法

本文提出了一种预测穿孔炮口制动器气动效率系数的方法。该方法基于内弹道模型确定制动入口气体动力学流动参数，并将通风口视为周向槽，对制动内部过程进行二维建模。该模型提供了制动入口和出口质量通量时间变化的信息。利用这些信息，计算了质量分配系数值和气动力效率系数值。研究表明，质量分配系数的建立速度非常快，它仅由制动器的几何形状决定。气动力效率系数是经过较长时间建立的，需要进行较长时间的计算。然而，已经表明，这个问题可以通过利用既定的出口和进口质量通量比来解决。因此，进口处的流动参数值足以确定气动力效率系数直至达到最终值的时刻。结果表明，这一数值取决于弹道和通风口的倾斜角。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Problemy Mechatroniki

自引率

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审稿时长

53 weeks