Proposal of Optimization of Depth Values in Wet Gap Crossing Military Operations

Q4 Engineering Advances in Military Technology Pub Date : 2021-03-06 DOI:10.3849/aimt.01421
M. Sedláček, F. Dohnal
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引用次数: 2

Abstract

The paper discusses a possibility of application of dynamic vivacity function in interior ballistic process mathematical model. At present time, various technologies of powder grain surfacing are applied, mainly in case of powder grains used in assemblies of small-calibre cartridges. The grain surfacing can desirably influence the interior ballistic action. It can further change basic powder thermodynamic properties, and particularly, it can change the character of the powder grain burning, which cannot be described by geometric burning concept. According to the established standards, a necessity of the dynamic vivacity function L evaluation is determined for artillery powders only, but the way of its evaluation can be applied for arbitrary powder grains. The application of the dynamic vivacity function then allows to get results of solution of the interior ballistic tasks with higher accuracy, as well as the selection of suitable grain surfacing technology.
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湿隙穿越军事作战中深度值优化的建议
讨论了动态活度函数在内弹道过程数学模型中应用的可能性。目前,粉末颗粒堆焊的工艺多种多样,主要是用于小口径枪弹组件的粉末颗粒堆焊。颗粒表面可以理想地影响内弹道作用。它可以进一步改变粉末的基本热力学性质,特别是可以改变粉末颗粒燃烧的特性,这是无法用几何燃烧概念来描述的。根据所建立的标准,确定了动力活度函数L评价的必要性,但其评价方法可适用于任意粉粒。利用动态活度函数可以得到精度较高的内弹道任务求解结果,以及选择合适的颗粒堆焊工艺。
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来源期刊
Advances in Military Technology
Advances in Military Technology Engineering-Civil and Structural Engineering
CiteScore
0.90
自引率
0.00%
发文量
11
审稿时长
12 weeks
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