Plastic flow, structure and mechanical properties in pure Al deformed by twist extrusion

Dmitry Orlov; Yan Beygelzimer; Sergey Synkov; Viktor Varyukhin; Nobuhiro Tsuji; Zenji Horita

doi:10.1016/j.msea.2009.06.005

Plastic flow, structure and mechanical properties in pure Al deformed by twist extrusion

Dmitry Orlov, Yan Beygelzimer, Sergey Synkov, Viktor Varyukhin, Nobuhiro Tsuji, Zenji Horita

Research output: Contribution to journal › Article › peer-review

Abstract

Twist extrusion (TE) is known as one of newly developed, but still moderately studied severe plastic deformation methods. This research was initiated to conduct a detailed study of structure-properties relationship evolution during TE processing. The evolution of macrostructure, Vickers hardness and tensile properties was studied in 99.99% purity aluminum during twist extrusion processing at room temperature up to 4 TE passes (total average equivalent strain of ∼4.8). The process resulted in almost homogeneously refined structure that cannot be resolved optically. Significant increase in Vickers hardness, yield strength and ultimate tensile strength with moderate degradation in ductility of Al was observed. Apart from some structural inhomogeneity, all the mechanical properties were almost homogeneous and isotropic after four TE passes.

Original language	English
Pages (from-to)	105-111
Number of pages	7
Journal	Materials Science & Engineering: A
Volume	519
Issue number	1-2
DOIs	https://doi.org/10.1016/j.msea.2009.06.005
Publication status	Published - 2009 Aug 30
Externally published	Yes

Subject classification (UKÄ)

Materials Engineering

Free keywords

Aluminum
Macrostructure
Mechanical properties
Severe plastic deformation
Twist extrusion

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10.1016/j.msea.2009.06.005

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title = "Plastic flow, structure and mechanical properties in pure Al deformed by twist extrusion",

abstract = "Twist extrusion (TE) is known as one of newly developed, but still moderately studied severe plastic deformation methods. This research was initiated to conduct a detailed study of structure-properties relationship evolution during TE processing. The evolution of macrostructure, Vickers hardness and tensile properties was studied in 99.99% purity aluminum during twist extrusion processing at room temperature up to 4 TE passes (total average equivalent strain of ∼4.8). The process resulted in almost homogeneously refined structure that cannot be resolved optically. Significant increase in Vickers hardness, yield strength and ultimate tensile strength with moderate degradation in ductility of Al was observed. Apart from some structural inhomogeneity, all the mechanical properties were almost homogeneous and isotropic after four TE passes.",

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AU - Orlov, Dmitry

AU - Beygelzimer, Yan

AU - Synkov, Sergey

AU - Varyukhin, Viktor

AU - Tsuji, Nobuhiro

AU - Horita, Zenji

PY - 2009/8/30

Y1 - 2009/8/30

N2 - Twist extrusion (TE) is known as one of newly developed, but still moderately studied severe plastic deformation methods. This research was initiated to conduct a detailed study of structure-properties relationship evolution during TE processing. The evolution of macrostructure, Vickers hardness and tensile properties was studied in 99.99% purity aluminum during twist extrusion processing at room temperature up to 4 TE passes (total average equivalent strain of ∼4.8). The process resulted in almost homogeneously refined structure that cannot be resolved optically. Significant increase in Vickers hardness, yield strength and ultimate tensile strength with moderate degradation in ductility of Al was observed. Apart from some structural inhomogeneity, all the mechanical properties were almost homogeneous and isotropic after four TE passes.

AB - Twist extrusion (TE) is known as one of newly developed, but still moderately studied severe plastic deformation methods. This research was initiated to conduct a detailed study of structure-properties relationship evolution during TE processing. The evolution of macrostructure, Vickers hardness and tensile properties was studied in 99.99% purity aluminum during twist extrusion processing at room temperature up to 4 TE passes (total average equivalent strain of ∼4.8). The process resulted in almost homogeneously refined structure that cannot be resolved optically. Significant increase in Vickers hardness, yield strength and ultimate tensile strength with moderate degradation in ductility of Al was observed. Apart from some structural inhomogeneity, all the mechanical properties were almost homogeneous and isotropic after four TE passes.

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Plastic flow, structure and mechanical properties in pure Al deformed by twist extrusion

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