耐磨钴合金粉末的生产

IF 0.9 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS
T. S. Cherepova, H. P. Dmitrieva, O. V. Yarovitsyn, O. V. Kondaurov, O. I. Boshko, O. M. Semirga
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引用次数: 0

摘要

为选择和优化制备耐磨钴合金粉末的实验条件,分别对KhTN-37合金进行了气体喷涂、KhTN-61合金进行了离心喷涂、KhTN-61合金进行了低温喷涂、KhTN-62合金熔体进行了超声等离子雾化。分析和总结了不同粒径和形状颗粒的生产情况、不同粒径颗粒的实验值之间的差异,以及考虑到工业生产要求,采用个别粒径颗粒的潜力。KhTN-37合金的气体喷涂方法不能产生所需的合适粉末,因此是不方便的。离心喷涂生产KhTN-61合金粉末的特点是,在喷射物料中形成大量球形/针状颗粒,影响其流动性,使筛分复杂化。此外,这种方法不能可靠地保护喷涂材料免受氧气的伤害。低温喷涂工艺由于改变了KhTN-61合金粉末的化学成分,不适合用于生产KhTN-61合金粉末。结果表明,熔体超声雾化是制备KhTN-62合金粉末的最佳方法。它产生了具有所需粒度的细球形粉末。这种快速硬化粉末的使用有望在动力设备,特别是飞机结构中摩擦单元的主要部件上开发耐磨和抗氧化表面层。高温耐磨合金粉末可推荐用于航空设备摩擦单元部件表面的强化和修复,以及批量零件的增材制造(3D打印),具有高温下的高耐磨性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Production of Wear-Resistant Cobalt Alloy Powders

Production of Wear-Resistant Cobalt Alloy Powders

Production of Wear-Resistant Cobalt Alloy Powders

To select and optimize the experimental conditions for producing powders from wear-resistant cobalt alloys, the following methods were tested: gas spraying of the KhTN-37 alloy, centrifugal spraying of the KhTN-61 alloy, cryogenic spraying of the KhTN-61 alloy, and ultrasonic plasma atomization of the KhTN-62 alloy melt. The production of particles in different sizes and shapes, the difference between the experimental values of their sizes, and the potential of using individual size fractions taking into account the industrial production requirements were analyzed and summarized. The gas spraying method used for the KhTN-37 alloy did not yield the required amount of suitable powder and was thus inexpedient. The centrifugal spraying method for the production of KhTN-61 alloy powders was characterized by a significant number of spherical/needle particles formed in the sprayed material, affecting its flowability and complicating sieving. In addition, this method did not reliably protect the sprayed material against oxygen. The cryogenic spraying process for producing KhTN-61 alloy powders turned out to be unsuitable because it changed the chemical composition. The method involving melt ultrasonic atomization turned out to be the most acceptable for producing KhTN-62 alloy powders. It yielded a fine spherical powder with the required particle size. The use of this rapidly hardened powder is promising for the development of wear- and oxidation-resistant surface layers on responsible components of friction units in power equipment, particularly in aircraft structures. The high-temperature wear-resistant alloy powders can be recommended for strengthening and restoring the surfaces of components in friction units in aviation equipment and for additive manufacturing of bulk parts (3D printing), possessing high wear resistance at elevated temperatures.

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来源期刊
Powder Metallurgy and Metal Ceramics
Powder Metallurgy and Metal Ceramics 工程技术-材料科学:硅酸盐
CiteScore
1.90
自引率
20.00%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Powder Metallurgy and Metal Ceramics covers topics of the theory, manufacturing technology, and properties of powder; technology of forming processes; the technology of sintering, heat treatment, and thermo-chemical treatment; properties of sintered materials; and testing methods.
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