Regulation of powder particles shape and size at plasma spraying

S. Ermakov
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引用次数: 1

Abstract

Additive technologies are among the most rapidly developing areas of modern production. To ensure the progressive movement of additive technologies development in the Russian Federation, it is necessary to provide maximum availability of additive raw materials – spherical metal powders for the domestic enterprises; however, the absence of domestic assemblies to produce such powders hampers the solution of this issue. Peter the Great St. Petersburg Polytechnic University has developed and successfully carried out industrial tests of a plasma atomization system for solid metal feedstocks of various chemical compositions. The paper presents the results of the study of the influence of some technological parameters on the granulometric size, shape, and defect structure of 12H18N9 steel and VG98 alloy powders. The paper includes the results of the research of the influence of such spraying parameters as the current strength and the plasma-forming gas velocity supplied to the plasma generator and the volume of protective gas supplied to the spray torch through the fluidized bed system nozzles located in the midsection of the atomizer spraying chamber. The study showed that by increasing the current strength and the plasma-forming gas velocity, it is possible to reduce the average size of the powder particles; and by changing the volume of the protective gas supply, it is possible to control the particle shape. The analysis of the chemical composition of the obtained powders shows that during the spraying process, there is no loss of alloying elements and the powder composition is the same as the original feedstock compositions. The paper gives the developed modes for the alloy feedstocks spraying, shows the possibility to produce metal powders with the level of the spherical shape factor of 92–96 % and minimal – not exceeding 0.5 % of powder aggregate weight – number of particles with nonmetallic inclusions, external and internal defects.
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等离子喷涂时粉末颗粒形状和大小的调节
增材技术是现代生产中发展最快的领域之一。为了确保俄罗斯联邦增材技术发展的进步,有必要为国内企业提供最大限度的增材原料-球形金属粉末;然而,国内缺乏生产这种粉末的组件阻碍了这一问题的解决。彼得大帝圣彼得堡理工大学已经开发并成功地进行了各种化学成分的固体金属原料的等离子体雾化系统的工业测试。本文介绍了一些工艺参数对12H18N9钢和VG98合金粉末的粒度、形状和缺陷组织的影响研究结果。本文研究了提供给等离子体发生器的电流强度、等离子体形成气速以及通过位于雾化器喷射室中段的流化床系统喷嘴提供给喷枪的保护气体积等喷涂参数的影响。研究表明,通过增加电流强度和等离子体形成气体速度,可以减小粉末颗粒的平均尺寸;通过改变保护气体供应的体积,可以控制颗粒形状。对所得粉末的化学成分分析表明,在喷涂过程中,合金元素没有损失,粉末成分与原原料成分相同。本文给出了合金原料喷涂的发展模式,指出了生产球形系数为92 ~ 96%、非金属夹杂物和内外缺陷颗粒数量最少(不超过粉末总重的0.5%)的金属粉末的可能性。
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THE RESEARCH OF AGING AND MECHANICAL PROPERTIES OF NANOSTRUCTURAL TITANIUM The research of the processes of formation of porous non-ferrous metals Special aspects of strain localization during thermal power processing Regulation of powder particles shape and size at plasma spraying The enhancement of cutting capacity of a grinding wheel when processing ductile steel blank parts by ultrasonic activation
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