Microstructure Evolution of 1050 Commercial Purity Aluminum Processed by High-Strain-Rate Deformation

Yang Yang; Yadong Chen; Fei Ma; Haibo Hu; Qingming Zhang; Tiegang Tang; Xiaowei Zhang

doi:10.1007/s11665-015-1769-6

Microstructure Evolution of 1050 Commercial Purity Aluminum Processed by High-Strain-Rate Deformation

Yang Yang, Yadong Chen^*, Fei Ma, Haibo Hu, Qingming Zhang, Tiegang Tang, Xiaowei Zhang

^*Corresponding author for this work

School of Mechatronical Engineering

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

7 Citations (Scopus)

Abstract

1050 commercial purity aluminum was first deformed by split-Hopkinson pressure bar. Two means of loading methods were conducted, namely uni-directional impact and multiaxial impact. The nominal strain rates reached 1.1 ×10³ and 3.0 × 10³/s, respectively, with the total strain 1.6 and 3.6. TEM observations reveal that the initial coarse grains are refined significantly. The majority of the structures in the deformed state are composed of elongated grains/cells whose width/length average grain sizes are 187/411 nm. However, the grains of multiaxial impacted sample are equiaxed with an average size of 517 nm. Dynamic recovery is suppressed during high-strain-rate deformation, so the dislocation configurations could not reach equilibrium states. High densities of dislocations are generated, forming several kinds of configurations. Interactions of dislocation substructures result in the refinement of grains.

Original language	English
Pages (from-to)	4307-4312
Number of pages	6
Journal	Journal of Materials Engineering and Performance
Volume	24
Issue number	11
DOIs	https://doi.org/10.1007/s11665-015-1769-6
Publication status	Published - 1 Nov 2015

Keywords

dislocation substructure
grain refinement
high-strain-rate
split-Hopkinson pressure bar

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title = "Microstructure Evolution of 1050 Commercial Purity Aluminum Processed by High-Strain-Rate Deformation",

abstract = "1050 commercial purity aluminum was first deformed by split-Hopkinson pressure bar. Two means of loading methods were conducted, namely uni-directional impact and multiaxial impact. The nominal strain rates reached 1.1 ×103 and 3.0 × 103/s, respectively, with the total strain 1.6 and 3.6. TEM observations reveal that the initial coarse grains are refined significantly. The majority of the structures in the deformed state are composed of elongated grains/cells whose width/length average grain sizes are 187/411 nm. However, the grains of multiaxial impacted sample are equiaxed with an average size of 517 nm. Dynamic recovery is suppressed during high-strain-rate deformation, so the dislocation configurations could not reach equilibrium states. High densities of dislocations are generated, forming several kinds of configurations. Interactions of dislocation substructures result in the refinement of grains.",

keywords = "dislocation substructure, grain refinement, high-strain-rate, split-Hopkinson pressure bar",

author = "Yang Yang and Yadong Chen and Fei Ma and Haibo Hu and Qingming Zhang and Tiegang Tang and Xiaowei Zhang",

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T1 - Microstructure Evolution of 1050 Commercial Purity Aluminum Processed by High-Strain-Rate Deformation

AU - Yang, Yang

AU - Chen, Yadong

AU - Ma, Fei

AU - Hu, Haibo

AU - Zhang, Qingming

AU - Tang, Tiegang

AU - Zhang, Xiaowei

PY - 2015/11/1

Y1 - 2015/11/1

N2 - 1050 commercial purity aluminum was first deformed by split-Hopkinson pressure bar. Two means of loading methods were conducted, namely uni-directional impact and multiaxial impact. The nominal strain rates reached 1.1 ×103 and 3.0 × 103/s, respectively, with the total strain 1.6 and 3.6. TEM observations reveal that the initial coarse grains are refined significantly. The majority of the structures in the deformed state are composed of elongated grains/cells whose width/length average grain sizes are 187/411 nm. However, the grains of multiaxial impacted sample are equiaxed with an average size of 517 nm. Dynamic recovery is suppressed during high-strain-rate deformation, so the dislocation configurations could not reach equilibrium states. High densities of dislocations are generated, forming several kinds of configurations. Interactions of dislocation substructures result in the refinement of grains.

AB - 1050 commercial purity aluminum was first deformed by split-Hopkinson pressure bar. Two means of loading methods were conducted, namely uni-directional impact and multiaxial impact. The nominal strain rates reached 1.1 ×103 and 3.0 × 103/s, respectively, with the total strain 1.6 and 3.6. TEM observations reveal that the initial coarse grains are refined significantly. The majority of the structures in the deformed state are composed of elongated grains/cells whose width/length average grain sizes are 187/411 nm. However, the grains of multiaxial impacted sample are equiaxed with an average size of 517 nm. Dynamic recovery is suppressed during high-strain-rate deformation, so the dislocation configurations could not reach equilibrium states. High densities of dislocations are generated, forming several kinds of configurations. Interactions of dislocation substructures result in the refinement of grains.

KW - dislocation substructure

KW - grain refinement

KW - high-strain-rate

KW - split-Hopkinson pressure bar

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ER -

Microstructure Evolution of 1050 Commercial Purity Aluminum Processed by High-Strain-Rate Deformation

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Keywords

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