Influence of the amount of CuAl2 intermetallide on the microhardness of the welded joint
DOI:
https://doi.org/10.54708/26587572_2021_32437Keywords:
Dissimilar welding; fusion surface; composition; propertie.Abstract
Regularities of the formation of the structure and properties of the transition zone of the welded joint of copper-aluminum tubes into the socket, performed by resistance welding, are considered. The change in the element-by-element composition of the sections of a dissimilar welded joint obtained by solid-liquid transformations of the tube metal is determined. The content of mass fractions of components of a natural-layered composite material (CM) obtained in telescopic welded joints of Al-Cu pipes by resistance-butt welding was: Al (63–66)% + Cu (29–34)%. At the surface of the copper tube they were: Al ~(15–17)% + Cu ~(74–82)%, on the side of the composite interlayer, respectively – Al ~(45–48)% + Cu ~(46–48)%.A composite intermediate layer was revealed in a welded joint with aluminum fusion and diffusion copper joint witha eutectic intermediate composite layer of complex composition. It contains a naturally aged aluminum-based solid solution, a small amount of a secondary phase, a eutectic, alumina and an intermetallic compound (CuAl2), and from the metal side of the copper tube, an intermetallic compound, a supersaturated solid solution, martensite, alumina, and a copper-based interstitial phase. The length of the interface in the Cu – CuAl2 section is ~6...8 ?m, the length of the interface in the CuAl2 – Al section is ~2...6 ?m. The chemical composition and microhardness of the metal have been determined over the thickness of the surfaces of fusion and diffusion welding (brazing) – the connection of the heat exchanger tubes. The range of values of the microhardness of the fusion surface is НV100 ~370…2200 MPa. The reasons for the detachment of the aluminum tube and the phase of penetration along the boundaries with the copper tube in operation are indicated.
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Published
2021-25-08
How to Cite
Shabalin Е. А., Murataev Т. А., & Murataev Ф. И. (2021). Influence of the amount of CuAl2 intermetallide on the microhardness of the welded joint. Materials. Technologies. Design., 3(2(4), 37–42. https://doi.org/10.54708/26587572_2021_32437
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