等离子传输线弧喷涂 Al/SiC 粉末包芯线的影响因素和工艺优化

IF 3.2 3区 材料科学 Q2 MATERIALS SCIENCE, COATINGS & FILMS
Ming Liu, Qi-qing Peng, Yan-fei Huang, Ping-hua Li, Guo-long Tan, Xuan-ping Luo, Qian-sen Qiao, Hai-dou Wang, Wei Lang
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引用次数: 0

摘要

线材热喷涂是热喷涂领域重要的涂层制备技术之一,具有成本低、材料利用率高、涂层沉积速度快等优点。粉末芯线的成分易于控制,可用作喷涂材料来制备具有特殊性能的功能涂层。传统的金属丝热喷涂技术(主要包括金属丝火焰喷涂(WFS)、金属丝电弧喷涂(WAS)和等离子体金属丝喷涂)制备的涂层存在一些缺陷,如结合强度弱、孔隙率高。本文创新性地提出了等离子体传输线弧喷涂(PTWAS)技术,通过该技术成功地喷涂出铝/碳化硅粉末芯线,沉积出铝(Al)/尼龙(SiC)复合涂层。此外,主要通过单因素法和响应面法研究了喷涂电流(I)、氩气(Ar)流量(LAr)、氢气(H2)流量(LH2)等因素对 PTWAS 制备的 Al/SiC 粉末芯线的影响以及涂层制备工艺的优化。经过实验探索和分析,最终确定的优化工艺参数如下:LAr 为 120 L min-1,I 为 160 A,LH2 为 5 L min-1,喷涂距离为 100 mm,送丝速度(V)为 0.18 m s-1,丝与喷嘴的距离(d)为 10 mm。试验发现,优化后的 Al/SiC 复合涂层孔隙率仅为 1.6%,平均显微硬度为 102 HV0.1,平均结合强度为 36.5 MPa。该涂层的综合性能优于用 WFS 和 WAS 制备的 Al/SiC 复合涂层。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Influencing Factors and Process Optimization of Al/SiC Powder-cored Wires by Plasma Transferred Wire Arc Spraying

Influencing Factors and Process Optimization of Al/SiC Powder-cored Wires by Plasma Transferred Wire Arc Spraying

Influencing Factors and Process Optimization of Al/SiC Powder-cored Wires by Plasma Transferred Wire Arc Spraying

Wire thermal spraying, one of the significant coating preparation technologies in the field of thermal spraying, has the advantages of low cost, high material utilization rate and fast coating deposition. Powder-cored wires, with easily controllable compositions, are used as spraying materials to prepare functional coatings with special properties. Coatings prepared by traditional wire thermal spraying technologies, mainly including wire flame spraying (WFS), wire arc spraying (WAS) and plasma wire spraying, have some defects, such as weak bonding strength and high porosity. In this paper, the plasma transferred wire arc spraying (PTWAS) technology was innovatively proposed, by which Al/SiC powder-cored wires were successfully sprayed to deposit the aluminum (Al)/Nicalon (SiC) composite coating. Furthermore, the influences of spraying current (I), argon (Ar) flow rate (LAr), hydrogen (H2) flow rate (LH2) and other factors on Al/Sic powder-cored wires prepared by PTWAS and the optimization of the coating preparation process were mainly studied via the single factor method and the response surface methodology. After experimental exploration and analysis, the optimized process parameters were finally determined as follows: LAr was 120 L min−1, I was 160 A, LH2 was 5 L min−1, the spraying distance was 100 mm, the wire feeding speed (V) was 0.18 m s−1, and the distance between the wire and nozzle (d) was 10 mm. It was found in the test that the porosity of the optimized Al/SiC composite coating was only 1.6%, the average microhardness was 102 HV0.1, and the average bonding strength was 36.5 MPa. The comprehensive properties of this coating were better than those of the Al/SiC composite coatings prepared by WFS and WAS.

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来源期刊
Journal of Thermal Spray Technology
Journal of Thermal Spray Technology 工程技术-材料科学:膜
CiteScore
5.20
自引率
25.80%
发文量
198
审稿时长
2.6 months
期刊介绍: From the scientific to the practical, stay on top of advances in this fast-growing coating technology with ASM International''s Journal of Thermal Spray Technology. Critically reviewed scientific papers and engineering articles combine the best of new research with the latest applications and problem solving. A service of the ASM Thermal Spray Society (TSS), the Journal of Thermal Spray Technology covers all fundamental and practical aspects of thermal spray science, including processes, feedstock manufacture, and testing and characterization. The journal contains worldwide coverage of the latest research, products, equipment and process developments, and includes technical note case studies from real-time applications and in-depth topical reviews.
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