氮粉材料在磁性磨料加工技术中的应用效率估算

IF 0.8 4区物理与天体物理 Q4 PHYSICS, APPLIED Technical Physics Letters Pub Date : 2024-06-03 DOI:10.1134/S1063785024700263

G. Petrishin, F. Panteleenko, V. Blumenstein, F. Switala, E. Panteleenko

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摘要

摘要本文评估了在磁性磨料加工技术中应用新型扩散氮化铁磁磨料的效率。在这项工作中，选择加工效率和加工表面可达到的粗糙度作为效率标准。所提出的新型粉末材料是通过对基于 16MnCr5 钢的分散金属废料进行氮化而制造的，它提高了磁性磨料加工的生产率，有效降低了加工表面的粗糙度，并使粗糙度 Ra 达到 0.16 μm。与最常见的烧结粉末材料 Fe-TiC 相比，对基于金属废料的新型氮化粉末材料进行了测试。

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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Estimation of the Efficiency of Applying Nitrogen Powder Materials in Magnetic Abrasive Processing Technology

The article evaluates the efficiency of applying new diffusion-nitrided ferromagnetic abrasive materials in the technology of magnetic abrasive processing. In this work, the efficiency of processing and the attainable roughness of the processed surface are selected as efficiency criteria. The proposed new powder materials are manufactured by nitriding dispersed metal waste based on 16MnCr5 steel and provide an increase in the productivity of magnetic abrasive processing, an effective decrease in the roughness of the processed surface, and the achievement of a roughness Ra of 0.16 μm. The tests of new nitrided powder materials based on metal waste were carried out in comparison with the most common sintered powder material Fe–TiC.

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来源期刊

Technical Physics Letters 物理-物理：应用

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

2-4 weeks

期刊介绍： Technical Physics Letters is a companion journal to Technical Physics and offers rapid publication of developments in theoretical and experimental physics with potential technological applications. Recent emphasis has included many papers on gas lasers and on lasing in semiconductors, as well as many reports on high Tc superconductivity. The excellent coverage of plasma physics seen in the parent journal, Technical Physics, is also present here with quick communication of developments in theoretical and experimental work in all fields with probable technical applications. Topics covered are basic and applied physics; plasma physics; solid state physics; physical electronics; accelerators; microwave electron devices; holography.