Extended application of Hopkinson bar technique

Yu Long Li; Wei Guo Guo; Fei Xu; Tao Suo

Extended application of Hopkinson bar technique

Yu Long Li, Wei Guo Guo, Fei Xu, Tao Suo

Northwestern Polytechnical University Xian

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

18 Scopus citations

Abstract

Hopkinson pressure bar has been widely used to determine mechanical behavior of materials under high strain rates. It has provided great foundation to the safety and reliability design of materials and structures under impact loading. As an efficient loading and test system, it has also been widely used in many other fields, such as: (1) determination of material behavior under high strain rate and high temperature by using a synchronal assembly system; (2) recovery test with single pulse loading capacity and its application in revolution of damage under dynamic loading; (3) evaluation of dynamic fracture toughness; (4) calibration of acceleration transducer in the range from 10⁴ g to 2 × 10⁵ g. Not only the principles and testing methods of these applications are demonstrated, but also some test results are introduced. It will be helpful to make the progress in the wider use of Hopkinson bar in the future.

Original language	English
Pages (from-to)	385-394
Number of pages	10
Journal	Baozha Yu Chongji/Explosion and Shock Waves
Volume	26
Issue number	5
State	Published - Sep 2006

Keywords

Acceleration sensor
Dynamic fracture toughness
High strain rate
High temperature
Hopkinson bar
Solid mechanics

Cite this

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AU - Li, Yu Long

AU - Guo, Wei Guo

AU - Xu, Fei

AU - Suo, Tao

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N2 - Hopkinson pressure bar has been widely used to determine mechanical behavior of materials under high strain rates. It has provided great foundation to the safety and reliability design of materials and structures under impact loading. As an efficient loading and test system, it has also been widely used in many other fields, such as: (1) determination of material behavior under high strain rate and high temperature by using a synchronal assembly system; (2) recovery test with single pulse loading capacity and its application in revolution of damage under dynamic loading; (3) evaluation of dynamic fracture toughness; (4) calibration of acceleration transducer in the range from 104 g to 2 × 105 g. Not only the principles and testing methods of these applications are demonstrated, but also some test results are introduced. It will be helpful to make the progress in the wider use of Hopkinson bar in the future.

AB - Hopkinson pressure bar has been widely used to determine mechanical behavior of materials under high strain rates. It has provided great foundation to the safety and reliability design of materials and structures under impact loading. As an efficient loading and test system, it has also been widely used in many other fields, such as: (1) determination of material behavior under high strain rate and high temperature by using a synchronal assembly system; (2) recovery test with single pulse loading capacity and its application in revolution of damage under dynamic loading; (3) evaluation of dynamic fracture toughness; (4) calibration of acceleration transducer in the range from 104 g to 2 × 105 g. Not only the principles and testing methods of these applications are demonstrated, but also some test results are introduced. It will be helpful to make the progress in the wider use of Hopkinson bar in the future.

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KW - Dynamic fracture toughness

KW - High strain rate

KW - High temperature

KW - Hopkinson bar

KW - Solid mechanics

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JO - Baozha Yu Chongji/Explosion and Shock Waves

JF - Baozha Yu Chongji/Explosion and Shock Waves

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Extended application of Hopkinson bar technique

Abstract

Keywords

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