Gas nitriding of inner surfaces of deep holes

Inżynieria Powierzchni Pub Date : 2018-08-16 DOI:10.5604/01.3001.0012.2091

M. Filipowicz, P. Wach, K. Burdyński, J. Michalski, Z. Komorek

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引用次数: 1

Abstract

In industrial applications of thermo-chemical treatments, gas nitriding is a widespread method of nitriding. Machine parts and tools of various shapes and sizes are nitrided, including drills, cutters, dies, shafts, rings, bearing balls, etc. often characterized by a complicated shape. The nitrided layers should have a controlled thickness not only of the diffusion zone, but also the surface layer of iron nitrides to have good exploitation properties. With a properly prepared surface on low alloy steels, we obtain a uniform nitrided layer after nitriding. It may happen that the structure of the nitrided layer is heterogeneous or even completely lacking in the nitrided parts having a complicated shape, and especially thin inner openings, where it is difficult to properly prepare the surface. Therefore, the nitriding problem is not the external surface of the workpieces but the internal one. The aim of the work was to assess the possibility of nitriding deep holes with small diameter. The tests were carried out on cylindrical specimens of unalloyed and low-alloy steel with electro-bored and mechanically hollow through holes and blind holes. The quality of the obtained nitrided layers was evaluated by metallographic and hardness examinations.

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深孔内表面气体氮化

在热化学处理的工业应用中，气体氮化是一种广泛的氮化方法。各种形状和尺寸的机器零件和工具被氮化，包括钻头、刀具、模具、轴、环、轴承球等，通常具有复杂的形状。氮化层不仅要控制扩散区厚度，而且要控制氮化铁表层的厚度，使其具有良好的开发性能。在低合金钢表面进行适当的渗氮处理，得到均匀的渗氮层。形状复杂的渗氮件，特别是内开孔较薄的渗氮件，表面制备困难，可能出现渗氮层结构不均匀甚至完全缺乏的情况。因此，渗氮问题不在于工件的外表面，而在于工件的内表面。这项工作的目的是评估小直径深孔氮化的可能性。在非合金钢和低合金钢圆柱形试样上进行了电钻和机械空心通孔和盲孔试验。通过金相检验和硬度检验对渗氮层的质量进行了评价。

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