Supporting military maintenance and repair with additive manufacturing

Q2 Arts and Humanities

Journal of Slavic Military Studies Pub Date : 2022-07-27 DOI:10.2478/jms-2022-0003

Samu Rautio, Ilari Valtonen

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Abstract

Abstract The purpose of the study is to explore whether Additive Manufacturing (AM) can support the military maintenance and repair of combat troops at isolated tactical level maintenance sites. The study also sought an explanation as to how AM could be organised in military logistics. The subject was approached from a systemic perspective. A system dynamics modelling was used as an impact assessment method. When selecting the parameters used in the model, the 3D printing data of the spare parts printed on the MTLB armoured personnel carrier (APC) were utilised. With simulation, we identified several key nodes for replacing or enhancing conventional military logistics with an AM added supply chain. As a result of the study, it was identified that by adding metal AM to the mechanised battalion organic maintenance and repair at the field level, it can produce spare parts whose use will improve APC recovery in the event of failure. We found that the relatively slow production speed of AM is the most influential factor in the use of the method. This study introduces a new perspective on reviewing the potential of AM in military logistics.

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用增材制造支持军事维修

摘要本研究的目的是探讨增材制造(AM)是否可以支持作战部队在孤立的战术级维修地点进行军事维修和维修。该研究还试图解释如何在军事后勤中组织AM。这个问题是从系统的角度来探讨的。采用系统动力学建模作为影响评估方法。在选择模型中使用的参数时，利用了MTLB装甲运兵车(APC)上打印的备件3D打印数据。通过模拟，我们确定了几个关键节点，可以用AM增加的供应链取代或增强传统的军事物流。研究的结果是，通过在现场一级将金属AM添加到机械化营的有机维护和维修中，它可以生产备件，其使用将提高APC在故障情况下的恢复。我们发现AM相对较慢的生产速度是影响该方法使用的最大因素。本研究引入了一种新的视角来审视AM在军事物流中的潜力。

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

Journal of Slavic Military Studies Arts and Humanities-History

CiteScore

0.60

自引率

0.00%

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