Effect of ECAP on damping capacity of pure aluminum L2

Jing Lai Tian; Zhong Ming Zhang; Jin Cheng Wang; Chun Jie Xu; Xue Feng Guo; Gen Cang Yang

Effect of ECAP on damping capacity of pure aluminum L2

Jing Lai Tian, Zhong Ming Zhang, Jin Cheng Wang, Chun Jie Xu, Xue Feng Guo, Gen Cang Yang

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

Industrial pure aluminum L2 billets were pressed by equal channel angular pressing (ECAP) using a solid die made of H13 steel with an internal angle (φ) of 90° between the vertical and horizontal channels and a curvature angle (ψ) of 30°. The damping capacity was measured by the cantilever beam technique. The experimental results show that ECAP could improve the microstructures and refine the grains of L2 alloys efficiently. The alloys with coarse grains of 1mm in diameter can be refined to quasi-equiaxed grains with 1 μm in diameter by ECAP for 4 passes. The damping capacity Q^-1 of the alloy can also be improved with ECAP and come to the maximum value 3.1 × 10^-3 at equivalent strain of 3.8 × 10^-5 after ECAP for 4 passes, which is 80 percent higher than that of the alloy before ECAP. The damping capacity is dependence of vibration amplitude, and increases as the increasing of the vibration amplitude.

源语言	英语
页（从-至）	43-46
页数	4
期刊	Cailiao Rechuli Xuebao/Transactions of Materials and Heat Treatment
卷	26
期	2
出版状态	已出版 - 4月 2005

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title = "Effect of ECAP on damping capacity of pure aluminum L2",

abstract = "Industrial pure aluminum L2 billets were pressed by equal channel angular pressing (ECAP) using a solid die made of H13 steel with an internal angle (φ) of 90° between the vertical and horizontal channels and a curvature angle (ψ) of 30°. The damping capacity was measured by the cantilever beam technique. The experimental results show that ECAP could improve the microstructures and refine the grains of L2 alloys efficiently. The alloys with coarse grains of 1mm in diameter can be refined to quasi-equiaxed grains with 1 μm in diameter by ECAP for 4 passes. The damping capacity Q-1 of the alloy can also be improved with ECAP and come to the maximum value 3.1 × 10-3 at equivalent strain of 3.8 × 10-5 after ECAP for 4 passes, which is 80 percent higher than that of the alloy before ECAP. The damping capacity is dependence of vibration amplitude, and increases as the increasing of the vibration amplitude.",

keywords = "Damping capacity, Equal channel angular pressing (ECAP), L2 pure aluminum",

author = "Tian, {Jing Lai} and Zhang, {Zhong Ming} and Wang, {Jin Cheng} and Xu, {Chun Jie} and Guo, {Xue Feng} and Yang, {Gen Cang}",

year = "2005",

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language = "英语",

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journal = "Cailiao Rechuli Xuebao/Transactions of Materials and Heat Treatment",

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T1 - Effect of ECAP on damping capacity of pure aluminum L2

AU - Tian, Jing Lai

AU - Zhang, Zhong Ming

AU - Wang, Jin Cheng

AU - Xu, Chun Jie

AU - Guo, Xue Feng

AU - Yang, Gen Cang

PY - 2005/4

Y1 - 2005/4

N2 - Industrial pure aluminum L2 billets were pressed by equal channel angular pressing (ECAP) using a solid die made of H13 steel with an internal angle (φ) of 90° between the vertical and horizontal channels and a curvature angle (ψ) of 30°. The damping capacity was measured by the cantilever beam technique. The experimental results show that ECAP could improve the microstructures and refine the grains of L2 alloys efficiently. The alloys with coarse grains of 1mm in diameter can be refined to quasi-equiaxed grains with 1 μm in diameter by ECAP for 4 passes. The damping capacity Q-1 of the alloy can also be improved with ECAP and come to the maximum value 3.1 × 10-3 at equivalent strain of 3.8 × 10-5 after ECAP for 4 passes, which is 80 percent higher than that of the alloy before ECAP. The damping capacity is dependence of vibration amplitude, and increases as the increasing of the vibration amplitude.

AB - Industrial pure aluminum L2 billets were pressed by equal channel angular pressing (ECAP) using a solid die made of H13 steel with an internal angle (φ) of 90° between the vertical and horizontal channels and a curvature angle (ψ) of 30°. The damping capacity was measured by the cantilever beam technique. The experimental results show that ECAP could improve the microstructures and refine the grains of L2 alloys efficiently. The alloys with coarse grains of 1mm in diameter can be refined to quasi-equiaxed grains with 1 μm in diameter by ECAP for 4 passes. The damping capacity Q-1 of the alloy can also be improved with ECAP and come to the maximum value 3.1 × 10-3 at equivalent strain of 3.8 × 10-5 after ECAP for 4 passes, which is 80 percent higher than that of the alloy before ECAP. The damping capacity is dependence of vibration amplitude, and increases as the increasing of the vibration amplitude.

KW - Damping capacity

KW - Equal channel angular pressing (ECAP)

KW - L2 pure aluminum

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JO - Cailiao Rechuli Xuebao/Transactions of Materials and Heat Treatment

JF - Cailiao Rechuli Xuebao/Transactions of Materials and Heat Treatment

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Effect of ECAP on damping capacity of pure aluminum L2

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