基于自熔NiCrBSi合金的提高耐磨性等离子体涂层

Q4 Engineering
Pavlo A. Sytnykov
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引用次数: 0

摘要

研究了自蔓延高温合成复合材料改性自熔NiCrBSi合金(PG-10N-01合金)复合材料喷涂等离子涂层的组织和性能。以钛粉、炭黑、铝、氧化铁、PT-NA-01热固性粉末和PGOSA-0耐火粘土为初始组分进行复合材料改性。初始粉末的混合和机械活化在BM-1型球磨机中以130转/分的速度进行15分钟,装药质量与落体质量(直径为6毫米的钢球)的比例为1:40。采用一种特殊的装置,通过引入加热镍铬合金螺旋来引发自传播高温合成。在MPN-004微等离子喷涂装置上,以45 a电流、30 V电压、100 mm距离对厚度为3 mm的65G钢试样进行涂层喷涂。氩气被用作等离子体形成和保护气体。为了验证自蔓延高温合成的可行性,在部分样品上喷涂自熔合金PG-10N-01,并加入机械混合的起始粉末。结果表明,等离子喷涂PG-10N-01合金和复合材料+ PG-10N-01组分改性后的复合材料可形成致密的多相结构涂层。PG-10N-01合金涂层的显微组织为镍(γ-Ni)固溶体,夹杂有硼化镍Ni3B和碳化铬Cr3C2。在镍基固溶体中加入改性复合材料,除上述相外,还检测到钛TiB2的硼化物、钛TiC的碳化物和硅SiC的碳化物。与PG-10H-01合金的喷涂涂层相比,它们的存在提高了涂层的显微硬度,并且在磨料磨损条件下具有更大的耐磨性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plasma Coatings Based on Self-Fluxing NiCrBSi Alloy with Improved Wear Resistance Properties
The structure and properties of plasma coatings sprayed with a composite material based on a self-fluxing NiCrBSi alloy (PG-10N-01 alloy) modified with a composite material obtained by self-propagating high-temperature synthesis were studied. Titanium powders, carbon black, aluminum, iron oxide, PT-NA-01 thermosetting powder and PGOSA-0 refractory clay were used as the initial components of modified with a composite material. Mixing and mechanical activation of the initial powders was carried out in a BM-1 ball mill for 15 minutes at 130 rpm in a ratio of 1 to 40 of the mass of the charge to the mass of the falling bodies (steel balls with a diameter of 6 mm). Initiation of the self-propagating high-temperature synthesis was carried out using a special device by introducing a heated nichrome spiral. The process of coatings spraying was performed on the MPN-004 microplasma spraying unit at a current of 45 A, a voltage of 30 V with a distance of 100 mm on samples made of 65G steel with a thickness of 3 mm. Argon was used as a plasma-forming and shielding gas. In order to substantiate the feasibility of the self-propagating high-temperature synthesis, a part of the samples was sprayed with a self-fluxing alloy PG-10N-01 with the addition of a mechanical mixture of starting powders. It was established that as a result of plasma spraying of the PG-10N-01 alloy and the composite material of the modified with a composite material + PG-10N-01 composition, coatings with a dense and multiphase structure are formed. The microstructure of the PG-10N-01 alloy coating consists of a solid solution based on nickel (γ-Ni) with inclusions of nickel borides Ni3B and chromium carbides Cr3C2. When adding modified with a composite material in a nickel-based solid solution, in addition to the phases indicated above, borides of titanium TiB2, carbides of titanium TiC and silicon SiC were detected. Their presence leads to an increase in the microhardness of such coatings and their greater wear resistance under conditions of abrasive wear in comparison with the spraying coating of the PG-10H-01 alloy.
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来源期刊
Journal of Mechanical Engineering
Journal of Mechanical Engineering Engineering-Mechanical Engineering
CiteScore
1.00
自引率
0.00%
发文量
0
审稿时长
16 weeks
期刊介绍: Journal of Mechanical Engineering (formerly known as Journal of Faculty of Mechanical Engineering) or JMechE, is an international journal which provides a forum for researchers and academicians worldwide to publish the research findings and the educational methods they are engaged in. This Journal acts as a link for the mechanical engineering community for rapid dissemination of their academic pursuits. The journal is published twice a year, in June and December, which discusses the progress of Mechanical Engineering advancement.
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