Microstructure and properties of composite materials with aluminum bronze matrix produced by wire electron-beam additive manufacturing

Microstructure and properties of composite materials with aluminum bronze matrix produced by wire electron-beam additive manufacturing

In this work, CuAl9Mn2 + W100% composite was obtained using electron-beam additive technology. The macro and microstructure of the obtained composite material was investigated. It has been shown that tungsten does not dissolve in the α-Cu solid solution and is formed in the form of agglomerates. It...

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Hauptverfasser: Utyaganova, V. R., Shamarin, N. N., Chumaevskii, A. V., Beloborodov, V. A., Zhukov, L. L., Nikonov, S. Yu, Gusarova, A. V.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Agglomerates
Aluminum bronzes
Anisotropy
Composite materials
Copper
Electron beams
Mechanical properties
Microstructure
Solid solutions
Substrates
Tungsten
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creator Utyaganova, V. R.
Shamarin, N. N.
Chumaevskii, A. V.
Beloborodov, V. A.
Zhukov, L. L.
Nikonov, S. Yu
Gusarova, A. V.
description In this work, CuAl9Mn2 + W100% composite was obtained using electron-beam additive technology. The macro and microstructure of the obtained composite material was investigated. It has been shown that tungsten does not dissolve in the α-Cu solid solution and is formed in the form of agglomerates. It is shown that hardness values increase from the top of the sample to the substrate with characteristic peaks of tungsten agglomerates. The mechanical properties of the printed CuAl9Mn2 alloy and CuAl9Mn2 + W100% composite material were compared. The anisotropy of mechanical properties has been revealed.
doi_str_mv 10.1063/5.0169587
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source AIP Journals Complete
subjects Agglomerates
Aluminum bronzes
Anisotropy
Composite materials
Copper
Electron beams
Mechanical properties
Microstructure
Solid solutions
Substrates
Tungsten
title Microstructure and properties of composite materials with aluminum bronze matrix produced by wire electron-beam additive manufacturing
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