Study on a radial-direction dynamic tensile test method for a thin-walled tube structure with special ring section

Jian Bo Yang; Yu Long Li; Tao Suo; Bao Yong Song

Study on a radial-direction dynamic tensile test method for a thin-walled tube structure with special ring section

Jian Bo Yang, Yu Long Li, Tao Suo, Bao Yong Song

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

Abstract

Aimed at a thin-walled tube structure with special ring section, combined with finite element analysis, a radial-directional dynamic tensile experimental method was proposed based on conventional split Hopkinson tensile bar(SHTB). A special clamp was designed, and a hollow steel transmission bar was used to magnify the transmitted signals. For the 1Cr18Ni9Ti thin-walled tube structure, some dynamic tensile tests were implemented under different strain rates. The results show that the experimental method is applicable to the thin-walled tube structure with special ring section. In addition, the special ring has a long plastic stage and the fracture strain is reduced with strain rate increasing. Moreover, the tensile strength is obviously enhanced with strain rate increasing.

Original language	English
Pages (from-to)	95-100
Number of pages	6
Journal	Baozha Yu Chongji/Explosion and Shock Waves
Volume	31
Issue number	1
State	Published - Jan 2011

Keywords

Dynamic tensile
Hollow transmission bar
Hopkinson tensile bar
Solid mechanics
Special ring
Tensile strength

Cite this

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abstract = "Aimed at a thin-walled tube structure with special ring section, combined with finite element analysis, a radial-directional dynamic tensile experimental method was proposed based on conventional split Hopkinson tensile bar(SHTB). A special clamp was designed, and a hollow steel transmission bar was used to magnify the transmitted signals. For the 1Cr18Ni9Ti thin-walled tube structure, some dynamic tensile tests were implemented under different strain rates. The results show that the experimental method is applicable to the thin-walled tube structure with special ring section. In addition, the special ring has a long plastic stage and the fracture strain is reduced with strain rate increasing. Moreover, the tensile strength is obviously enhanced with strain rate increasing.",

keywords = "Dynamic tensile, Hollow transmission bar, Hopkinson tensile bar, Solid mechanics, Special ring, Tensile strength",

author = "Yang, {Jian Bo} and Li, {Yu Long} and Tao Suo and Song, {Bao Yong}",

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AU - Yang, Jian Bo

AU - Li, Yu Long

AU - Suo, Tao

AU - Song, Bao Yong

PY - 2011/1

Y1 - 2011/1

N2 - Aimed at a thin-walled tube structure with special ring section, combined with finite element analysis, a radial-directional dynamic tensile experimental method was proposed based on conventional split Hopkinson tensile bar(SHTB). A special clamp was designed, and a hollow steel transmission bar was used to magnify the transmitted signals. For the 1Cr18Ni9Ti thin-walled tube structure, some dynamic tensile tests were implemented under different strain rates. The results show that the experimental method is applicable to the thin-walled tube structure with special ring section. In addition, the special ring has a long plastic stage and the fracture strain is reduced with strain rate increasing. Moreover, the tensile strength is obviously enhanced with strain rate increasing.

AB - Aimed at a thin-walled tube structure with special ring section, combined with finite element analysis, a radial-directional dynamic tensile experimental method was proposed based on conventional split Hopkinson tensile bar(SHTB). A special clamp was designed, and a hollow steel transmission bar was used to magnify the transmitted signals. For the 1Cr18Ni9Ti thin-walled tube structure, some dynamic tensile tests were implemented under different strain rates. The results show that the experimental method is applicable to the thin-walled tube structure with special ring section. In addition, the special ring has a long plastic stage and the fracture strain is reduced with strain rate increasing. Moreover, the tensile strength is obviously enhanced with strain rate increasing.

KW - Dynamic tensile

KW - Hollow transmission bar

KW - Hopkinson tensile bar

KW - Solid mechanics

KW - Special ring

KW - Tensile strength

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JF - Baozha Yu Chongji/Explosion and Shock Waves

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Study on a radial-direction dynamic tensile test method for a thin-walled tube structure with special ring section

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