Microstructural evolution and thermal stability of 1050 commercial pure aluminum processed by high-strain-rate deformation

Yang Yang; Ya Dong Chen; Hai Bo Hu; Tie Gang Tang; Ren Rong Long; Qing Ming Zhang

doi:10.1557/jmr.2015.341

Microstructural evolution and thermal stability of 1050 commercial pure aluminum processed by high-strain-rate deformation

Yang Yang, Ya Dong Chen^*, Hai Bo Hu, Tie Gang Tang, Ren Rong Long, Qing Ming Zhang

^*此作品的通讯作者

机电学院

科研成果: 期刊稿件 › 文章 › 同行评审

6 引用（Scopus）

摘要

Microstructural and property evolution of 1050 commercial pure aluminum subjected to high-strain-rate deformation (1.2-2.3 × 10³ s^-1) by split Hopkinson pressure bar (SHPB) and subsequent annealing treatment were investigated. The as-deformed and their annealed samples at 373-523 K were characterized by transmission electron microscopy (TEM) and microhardness tests. TEM observations reveal that the as-deformed sample is mainly composed of a lamellar structure, whose transverse/longitudinal average subgrain/cell sizes are 293 and 694 nm, respectively. The initial coarse grains are refined significantly. The initial lamellar grain structures are subdivided into pancake-shaped subgrains due to a gradual transition by triple junction motion at 473 K, and then a dramatic microstructural coarsening is observed at 523 K. It is suggested that annealing behavior of this dynamic loading structure is better considered as a continuous process of grain coarsening or continuous recovery.

源语言	英语
页（从-至）	3502-3509
页数	8
期刊	Journal of Materials Research
卷	30
期	22
DOI	https://doi.org/10.1557/jmr.2015.341
出版状态	已出版 - 2 11月 2015

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title = "Microstructural evolution and thermal stability of 1050 commercial pure aluminum processed by high-strain-rate deformation",

abstract = "Microstructural and property evolution of 1050 commercial pure aluminum subjected to high-strain-rate deformation (1.2-2.3 × 103 s-1) by split Hopkinson pressure bar (SHPB) and subsequent annealing treatment were investigated. The as-deformed and their annealed samples at 373-523 K were characterized by transmission electron microscopy (TEM) and microhardness tests. TEM observations reveal that the as-deformed sample is mainly composed of a lamellar structure, whose transverse/longitudinal average subgrain/cell sizes are 293 and 694 nm, respectively. The initial coarse grains are refined significantly. The initial lamellar grain structures are subdivided into pancake-shaped subgrains due to a gradual transition by triple junction motion at 473 K, and then a dramatic microstructural coarsening is observed at 523 K. It is suggested that annealing behavior of this dynamic loading structure is better considered as a continuous process of grain coarsening or continuous recovery.",

keywords = "annealing, hardness, microstructure",

author = "Yang Yang and Chen, {Ya Dong} and Hu, {Hai Bo} and Tang, {Tie Gang} and Long, {Ren Rong} and Zhang, {Qing Ming}",

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doi = "10.1557/jmr.2015.341",

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TY - JOUR

T1 - Microstructural evolution and thermal stability of 1050 commercial pure aluminum processed by high-strain-rate deformation

AU - Yang, Yang

AU - Chen, Ya Dong

AU - Hu, Hai Bo

AU - Tang, Tie Gang

AU - Long, Ren Rong

AU - Zhang, Qing Ming

N1 - Publisher Copyright: © Materials Research Society 2015.

PY - 2015/11/2

Y1 - 2015/11/2

N2 - Microstructural and property evolution of 1050 commercial pure aluminum subjected to high-strain-rate deformation (1.2-2.3 × 103 s-1) by split Hopkinson pressure bar (SHPB) and subsequent annealing treatment were investigated. The as-deformed and their annealed samples at 373-523 K were characterized by transmission electron microscopy (TEM) and microhardness tests. TEM observations reveal that the as-deformed sample is mainly composed of a lamellar structure, whose transverse/longitudinal average subgrain/cell sizes are 293 and 694 nm, respectively. The initial coarse grains are refined significantly. The initial lamellar grain structures are subdivided into pancake-shaped subgrains due to a gradual transition by triple junction motion at 473 K, and then a dramatic microstructural coarsening is observed at 523 K. It is suggested that annealing behavior of this dynamic loading structure is better considered as a continuous process of grain coarsening or continuous recovery.

AB - Microstructural and property evolution of 1050 commercial pure aluminum subjected to high-strain-rate deformation (1.2-2.3 × 103 s-1) by split Hopkinson pressure bar (SHPB) and subsequent annealing treatment were investigated. The as-deformed and their annealed samples at 373-523 K were characterized by transmission electron microscopy (TEM) and microhardness tests. TEM observations reveal that the as-deformed sample is mainly composed of a lamellar structure, whose transverse/longitudinal average subgrain/cell sizes are 293 and 694 nm, respectively. The initial coarse grains are refined significantly. The initial lamellar grain structures are subdivided into pancake-shaped subgrains due to a gradual transition by triple junction motion at 473 K, and then a dramatic microstructural coarsening is observed at 523 K. It is suggested that annealing behavior of this dynamic loading structure is better considered as a continuous process of grain coarsening or continuous recovery.

KW - annealing

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KW - microstructure

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ER -

Microstructural evolution and thermal stability of 1050 commercial pure aluminum processed by high-strain-rate deformation

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