期刊
SURFACE & COATINGS TECHNOLOGY
卷 438, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.surfcoat.2022.128392
关键词
Cold spray; Zinc; Corrosion; Elastic modulus and nozzle
Cold sprayed zinc coatings were deposited on mild steel substrate and their microstructure and properties were evaluated. The results showed that cold sprayed coatings performed better than coatings from other techniques, primarily due to improved inter-splat bonding. Finite element analysis also supported these findings.
Cold sprayed zinc coatings have the potential to provide barrier as well as sacrificial protection to steels. In the present work, zinc coatings were deposited on mild steel substrate and its microstructure and properties such as hardness, elastic modulus and corrosion performance were evaluated. Owing to the purity of the feedstock and use of anti-clogging nozzle, improved microstructure and properties especially corrosion resistance were achieved in the as sprayed condition itself obviating the need for a cost and time consuming post treatment. In addition to this, a property and microstructure comparison was made with zinc coatings deposited using other spray techniques such as wire arc spray and flame spray. It was found that cold sprayed coatings fared better than their counterparts from other techniques in the as sprayed condition itself. Improved inter-splat bonding was one of the major reasons for the superior performance of cold sprayed coatings. An indirect inference was also found from the elastic modulus of the coatings wherein cold sprayed coatings had higher modulus than other coatings. An attempt was also made to analyze the results from Finite element (FE) approach.
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