微等离子粉末沉积对添加剂粉末的新工艺要求

IF 0.9 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS
O. V. Yarovytsyn, A. V. Mykytchyk, Y. V. Oliynyk
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引用次数: 0

摘要

采用能量色散 X 射线分析法 (EDX) 研究了耐高温蠕变镍超合金(Inconel 939、ZhS32)和耐高温氧化镍超合金(Inconel 625、Hastelloy C22)气雾化商用添加剂粉末样品中典型细颗粒的外表面和内部体积之间的掺杂元素和杂质分布情况。当掺杂元素达到 4-5 wt.%时,在粉末颗粒的表面和内部体积之间观察到明显的浓度梯度:高温抗蠕变合金中的 Re、Mo Ta 和 Nb 以及高温抗氧化合金 Inconel 625 中的 Al、Nb、Co、Fe、V 和 Mn。除掺杂元素外,在添加剂粉末的近表层还发现了 O、N、S、P 和 Si 杂质的浓度梯度。利用 EDX 的发现和还原萃取法的数据,计算了典型细粉颗粒内部体积和近表层中氧和氮的含量,以及与杂质含量增加相对应的表层厚度。结果表明,典型细粉末颗粒的表面层会增加商用添加剂粉末样品中杂质的总平均重量含量:氧气增加了 2.5 倍,氮气增加了 1.8 倍。为了评估0.16 重量% 氧和 0.13 重量% 氮的杂质含量对雾化添加剂粉末焊接工艺性能的影响,还测试了耐高温氧化(ChS40)和耐高温蠕变(ZhS6U、ZhS32、Renè 80)镍超合金样品,以确定它们是否适合在高达 15 A 的焊接电流下进行微等离子粉末沉积。结果发现,添加剂粉末是否适用于低惰性沉积主要取决于有限的氧杂质含量:重量平均含量不超过 0.025 重量百分比,典型细颗粒 1-3 μm 厚的近表面层中的含量不超过 0.1 重量百分比。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

New Process Requirements for Additive Powders for Microplasma Powder Deposition

New Process Requirements for Additive Powders for Microplasma Powder Deposition

New Process Requirements for Additive Powders for Microplasma Powder Deposition

The distribution of doping elements and impurities between the external surfaces and internal volumes of typical fine particles in samples of gas-atomized commercial additive powders of hightemperature creep-resistant (Inconel 939, ZhS32) and high-temperature oxidation-resistant (Inconel 625, Hastelloy C22) nickel superalloys was examined employing energy-dispersive X-ray analysis (EDX). Significant concentration gradients were observed between the surfaces and internal volumes of powder particles for doping elements reaching 4–5 wt.%: Re, Mo Ta, and Nb in the high-temperature creep-resistant alloys and Al, Nb, Co, Fe, V, and Mn in the Inconel 625 hightemperature oxidation-resistant alloy. Besides doping elements, concentration gradients of O, N, S, P, and Si impurities were found in the near-surface layers of the additive powders. The EDX findings and data from the reduction–extraction method were used to calculate the amounts of oxygen and nitrogen in the internal volumes and the near-surface layer of typical fine powder particles and the thickness of this layer corresponding to the increased content of impurities. The surface layer of typical fine particles was shown to increase the total weight-average content of impurities in the samples of commercial additive powders: oxygen up to 2.5 times and nitrogen up to 1.8 times. To assess the influence of impurity amounts of oxygen <0.16 wt.% and nitrogen <0.13 wt.% on the welding process properties of the atomized additive powders, additional samples of hightemperature oxidation-resistant (ChS40) and high-temperature creep-resistant (ZhS6U, ZhS32, Renè 80) nickel superalloys were tested to ascertain their suitability for microplasma powder deposition at a welding current of up to 15 A. It was found that the suitability of the additive powder for lowamperage deposition was mainly determined by the limited oxygen impurity content: weight-average content up to 0.025 wt.% and content in the 1–3 μm thick near-surface layer of a typical fine particle up to 0.1 wt.%.

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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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