An AA6005 Al–Mg–Si alloy was used to investigate the evolution of microhardness and microstructure on the longitudinal or Z planes after processing by ECAP where these planes lie parallel to the upper and lower surfaces of the billet. The processing was conducted at a temperature of 423 K using an ECAP die with a channel angle of 90°. Samples were pressed for up to 8 passes and observations were undertaken on the top and bottom planes and on a parallel plane located at approximately the center of the billet. The results show that the grain size is reduced from ~ 50 μm in the initial condition to ~ 200 nm after 8 passes with similar grain sizes recorded on all three planes of observation. Measurements of the microhardness show the values increase by a little more than two times after 8 passes. The results from this investigation demonstrate that excellent microstructural homogeneity may be achieved throughout the Al–Mg–Si billet after processing through a total of 8 passes.

A characterization of microstructure and microhardness on longitudinal planes of an Al–Mg–Si alloy processed by ECAP / Aferdita, Veveçka; Cabibbo, Marcello; Terence G., Langdon. - In: MATERIALS CHARACTERIZATION. - ISSN 1044-5803. - ELETTRONICO. - 84:(2013), pp. 126-133. [10.1016/j.matchar.2013.07.016]

A characterization of microstructure and microhardness on longitudinal planes of an Al–Mg–Si alloy processed by ECAP

CABIBBO, MARCELLO;
2013-01-01

Abstract

An AA6005 Al–Mg–Si alloy was used to investigate the evolution of microhardness and microstructure on the longitudinal or Z planes after processing by ECAP where these planes lie parallel to the upper and lower surfaces of the billet. The processing was conducted at a temperature of 423 K using an ECAP die with a channel angle of 90°. Samples were pressed for up to 8 passes and observations were undertaken on the top and bottom planes and on a parallel plane located at approximately the center of the billet. The results show that the grain size is reduced from ~ 50 μm in the initial condition to ~ 200 nm after 8 passes with similar grain sizes recorded on all three planes of observation. Measurements of the microhardness show the values increase by a little more than two times after 8 passes. The results from this investigation demonstrate that excellent microstructural homogeneity may be achieved throughout the Al–Mg–Si billet after processing through a total of 8 passes.
2013
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/156105
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