单轴双向加载分离式霍普金森压杆的数据处理方法

Hailiang Nie; Xiaopeng Shi; Chunyang Chen; Yulong Li

doi:10.11883/bzycj-2017-0361

单轴双向加载分离式霍普金森压杆的数据处理方法

Translated title of the contribution: Data processing method for bidirectional-load split Hopkinson compression bar

Hailiang Nie, Xiaopeng Shi, Chunyang Chen, Yulong Li

School of Civil Aviation

Northwestern Polytechnical University Xian

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

7 Scopus citations

Abstract

This paper presents a bidirectional-load split Hopkinson compression bar (BSHCB), namely, adding other symmetrical incident wave on the basis of traditional split Hpkinson pressure bar (SHPB), the two incident waves would load the specimen synchronously and symmetrically. The data process equations are approached according to the one-dimensional stress wave theory. According to the numerical simulation analyses, it is concluded that the proposed data process equations can determine the engineering stress, engineering strain and engineering strain rate of the tested material in bidirectional-load split Hopkinson compression test. Moreover, compared with the traditional SHPB test, the specimens in bidirectional-load split Hopkinson compression test can reach constant stress state in shorter time, and the strain rate can be improved.

Translated title of the contribution	Data processing method for bidirectional-load split Hopkinson compression bar
Original language	Chinese (Traditional)
Pages (from-to)	517-524
Number of pages	8
Journal	Baozha Yu Chongji/Explosion and Shock Waves
Volume	38
Issue number	3
DOIs	https://doi.org/10.11883/bzycj-2017-0361
State	Published - 25 May 2018

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title = "单轴双向加载分离式霍普金森压杆的数据处理方法",

abstract = "This paper presents a bidirectional-load split Hopkinson compression bar (BSHCB), namely, adding other symmetrical incident wave on the basis of traditional split Hpkinson pressure bar (SHPB), the two incident waves would load the specimen synchronously and symmetrically. The data process equations are approached according to the one-dimensional stress wave theory. According to the numerical simulation analyses, it is concluded that the proposed data process equations can determine the engineering stress, engineering strain and engineering strain rate of the tested material in bidirectional-load split Hopkinson compression test. Moreover, compared with the traditional SHPB test, the specimens in bidirectional-load split Hopkinson compression test can reach constant stress state in shorter time, and the strain rate can be improved.",

keywords = "Bidirectional load, Data processing, Hopkinson pressure bar, Strain rate, Stress equilibrium",

author = "Hailiang Nie and Xiaopeng Shi and Chunyang Chen and Yulong Li",

year = "2018",

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doi = "10.11883/bzycj-2017-0361",

language = "繁体中文",

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journal = "Baozha Yu Chongji/Explosion and Shock Waves",

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TY - JOUR

T1 - 单轴双向加载分离式霍普金森压杆的数据处理方法

AU - Nie, Hailiang

AU - Shi, Xiaopeng

AU - Chen, Chunyang

AU - Li, Yulong

PY - 2018/5/25

Y1 - 2018/5/25

N2 - This paper presents a bidirectional-load split Hopkinson compression bar (BSHCB), namely, adding other symmetrical incident wave on the basis of traditional split Hpkinson pressure bar (SHPB), the two incident waves would load the specimen synchronously and symmetrically. The data process equations are approached according to the one-dimensional stress wave theory. According to the numerical simulation analyses, it is concluded that the proposed data process equations can determine the engineering stress, engineering strain and engineering strain rate of the tested material in bidirectional-load split Hopkinson compression test. Moreover, compared with the traditional SHPB test, the specimens in bidirectional-load split Hopkinson compression test can reach constant stress state in shorter time, and the strain rate can be improved.

AB - This paper presents a bidirectional-load split Hopkinson compression bar (BSHCB), namely, adding other symmetrical incident wave on the basis of traditional split Hpkinson pressure bar (SHPB), the two incident waves would load the specimen synchronously and symmetrically. The data process equations are approached according to the one-dimensional stress wave theory. According to the numerical simulation analyses, it is concluded that the proposed data process equations can determine the engineering stress, engineering strain and engineering strain rate of the tested material in bidirectional-load split Hopkinson compression test. Moreover, compared with the traditional SHPB test, the specimens in bidirectional-load split Hopkinson compression test can reach constant stress state in shorter time, and the strain rate can be improved.

KW - Bidirectional load

KW - Data processing

KW - Hopkinson pressure bar

KW - Strain rate

KW - Stress equilibrium

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DO - 10.11883/bzycj-2017-0361

M3 - 文章

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SN - 1001-1455

VL - 38

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JO - Baozha Yu Chongji/Explosion and Shock Waves

JF - Baozha Yu Chongji/Explosion and Shock Waves

IS - 3

ER -

单轴双向加载分离式霍普金森压杆的数据处理方法

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