Kovove Materialy, ( ISI ), Volume (61), No (1), Year (2023-1)

Title : ( Grain refinement, texture evolutions, and strengthening of a recycled aluminium alloy subjected to tube channel pressing )

Authors: Mohammad Hassan Farshidi , Muhammad Rifai , Hiroyuki Miyamoto ,

Access to full-text not allowed by authors

Citation: BibTeX | EndNote

Abstract

This works aims to study the grain refinement, the texture evolutions, and the strengthening of the recycled Al-1.7Fe-0.9Si-0.5Cu alloy subjected to a recently developed severe plastic deformation process called tube channel pressing. For this purpose, an electron backscattered diffraction equipped scanning electron microscope is applied to investigate the grain refinement and the texture evolutions while the tension test is applied for the measurement of strength. Results show that the imposition of the first pass of the process causes an extensive refinement of grains besides a considerable increase in strength. Despite this, the imposition of additional passes causes a little grain refinement besides a minor strength decrease. Additionally, vital texture components related to the shear deformation have risen because of the imposition of the process. Also, the mechanisms responsible for these phenomena are discussed.

Keywords

, recycled aluminium, severe plastic deformation, grain refinement, strength, texture
برای دانلود از شناسه و رمز عبور پرتال پویا استفاده کنید.

@article{paperid:1093234,
author = {Farshidi, Mohammad Hassan and محمد رفاعی and هیرویوکی میاموتو},
title = {Grain refinement, texture evolutions, and strengthening of a recycled aluminium alloy subjected to tube channel pressing},
journal = {Kovove Materialy},
year = {2023},
volume = {61},
number = {1},
month = {January},
issn = {0023-432X},
keywords = {recycled aluminium; severe plastic deformation; grain refinement; strength; texture},
}

[Download]

%0 Journal Article
%T Grain refinement, texture evolutions, and strengthening of a recycled aluminium alloy subjected to tube channel pressing
%A Farshidi, Mohammad Hassan
%A محمد رفاعی
%A هیرویوکی میاموتو
%J Kovove Materialy
%@ 0023-432X
%D 2023

[Download]