Consumable Tool for Coating Deposition by Joint Deformation of the Base and Tool Materials

F. Yu. Isupov; O. V. Panchenko; A. A. Naumov; M. D. Alekseeva; L. A. Zhabrev; A. A. Popovich

doi:10.1134/S0036029519130111

Consumable Tool for Coating Deposition by Joint Deformation of the Base and Tool Materials

Authors: Isupov F.Y.¹, Panchenko O.V.¹, Naumov A.A.¹, Alekseeva M.D.¹, Zhabrev L.A.¹, Popovich A.A.¹
Affiliations:
1. New Industrial Technologies Center, Peter the Great St. Petersburg Polytechnic University
Issue: Vol 2019, No 13 (2019)
Pages: 1399-1406
Section: Coating Deposition
URL: https://journals.rcsi.science/0036-0295/article/view/173832
DOI: https://doi.org/10.1134/S0036029519130111
ID: 173832

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Abstract
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Abstract

A coating made of an Al–5Mg aluminum alloy is deposited onto a substrate of the same alloy due to the joint deformation of the base and tool materials via friction. A mathematical simulation is used to choose the geometry of the tool that ensures its operability and stability during coating deposition. One-layer and multilayer coatings and butt joints of 2-mm-thick sheets are formed. The joints have a fine-grained structure with the grain size that is smaller than the grain size in the substrate by a factor of 5–10. The microhardness distribution across the deposited layers is nonuniform: the hardness increases from the substrate to the upper layer.

Keywords

friction surfacing, consumable tool for friction stir welding, Al–Mg aluminum alloys, welding

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Consumable Tool for Coating Deposition by Joint Deformation of the Base and Tool Materials

Full Text

Abstract

Keywords

About the authors

F. Yu. Isupov

O. V. Panchenko

A. A. Naumov

M. D. Alekseeva

L. A. Zhabrev

A. A. Popovich

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