Dilatometry of Steel for the Production of 5.56 mm Calibre Rifle Barrels

Problemy Mechatroniki Pub Date : 2021-12-30 DOI:10.5604/01.3001.0015.5989

A. Debski, T. Majewski, R. Paszkowski

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Abstract

During high rates of fire, the bore of the firearm barrel is exposed to high temperatures. This exposure induces structural changes in the barrel material, which is especially significant for the substrate of the galvanic chrome plating. The alloy steel grades used currently for firearm barrels, when exposed to heating above the ferrite stability limits, develop a phase transition with a discrete negative change in the material volume, which results in typical crazing in the bore. This effect is destructive to the galvanic chrome plating, leading to a loss of adhesion, which reduces the ballistic performance of the firearm, especially its muzzle velocity. This can be prevented by manufacturing barrels from steels having a limited range of phase transitions. The primary method for determining the presence of distinct volume changes in steel due to phase transition is dilatometry over a wide temperature range, which includes the interval within which the barrel bore is heated. This paper presents the dilatometry results for four steel grades, which included a steel grade currently used for firearm barrels, and an analysis of the effects of phase transition on the degradation of the barrel bore.

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5.56mm口径步枪枪管生产用钢的膨胀率测定

在高射速期间，枪管的膛孔暴露在高温下。这种暴露导致筒体材料的结构变化，这对于电镀铬的基底来说尤其重要。目前用于枪管的合金钢等级，当暴露在高于铁氧体稳定性极限的加热下时，会产生材料体积离散负变化的相变，这会导致膛内出现典型的裂纹。这种影响会破坏电镀铬，导致附着力损失，从而降低枪支的弹道性能，尤其是初速。这可以通过用具有有限相变范围的钢制造桶来防止。确定钢中由于相变而出现明显体积变化的主要方法是在宽温度范围内进行膨胀测量，包括加热枪管膛的间隔。本文介绍了四种钢号的膨胀测量结果，其中包括目前用于枪管的一种钢号，并分析了相变对枪管膛退化的影响。

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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Problemy Mechatroniki

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审稿时长

53 weeks