Redesign of Split-Hopkinson Tensile bar to eliminate spurious wave and verification of strain signal using FEM
To get the reliable dynamic material properties, the optimization of measuring apparatus such as SHTB (Split-Hopkinson Tensile Bar) is essential. SHTB apparatus is a machine that can acquire the material properties of a specimen for given high-speed situation in 10 2 ~ 10 4 / sec strain rate region....
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Published in | Advances in Mechanical Engineering Vol. 15; no. 10 |
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Main Authors | , |
Format | Book Review Journal Article |
Language | English |
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London, England
SAGE Publications
01.10.2023
Sage Publications Ltd SAGE Publishing |
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Abstract | To get the reliable dynamic material properties, the optimization of measuring apparatus such as SHTB (Split-Hopkinson Tensile Bar) is essential. SHTB apparatus is a machine that can acquire the material properties of a specimen for given high-speed situation in
10
2
~
10
4
/
sec
strain rate region. In this study, a new model improved the waveform is proposed by redesigning and optimizing the initial SHTB equipment. Complete reflected pulse was not obtained, and a spurious wave was measured in original model. To obtain reliable material properties, the spurious wave must be removed or avoided. Factors affecting spurious wave were determined as length of striker bar, length of incident bar, and diameter of striker bar & flange, and verified using LS-DYNA, one of the FEM (Finite-Element Method) software. The modified model was redesigned and manufactured based on FEM results. In FEM results, the incident and reflected pulse were completely improved. Also, overlapping with spurious wave was avoided in redesigned experiment results. Redesigned model was confirmed the residual wave after the incident pulse by a pneumatic launcher and various mechanical components. However, the residual wave didn’t affect the reflected pulse and the waveform was improved than the original model. |
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AbstractList | To get the reliable dynamic material properties, the optimization of measuring apparatus such as SHTB (Split-Hopkinson Tensile Bar) is essential. SHTB apparatus is a machine that can acquire the material properties of a specimen for given high-speed situation in 10 2 ~ 10 4 /sec strain rate region. In this study, a new model improved the waveform is proposed by redesigning and optimizing the initial SHTB equipment. Complete reflected pulse was not obtained, and a spurious wave was measured in original model. To obtain reliable material properties, the spurious wave must be removed or avoided. Factors affecting spurious wave were determined as length of striker bar, length of incident bar, and diameter of striker bar & flange, and verified using LS-DYNA, one of the FEM (Finite-Element Method) software. The modified model was redesigned and manufactured based on FEM results. In FEM results, the incident and reflected pulse were completely improved. Also, overlapping with spurious wave was avoided in redesigned experiment results. Redesigned model was confirmed the residual wave after the incident pulse by a pneumatic launcher and various mechanical components. However, the residual wave didn’t affect the reflected pulse and the waveform was improved than the original model. To get the reliable dynamic material properties, the optimization of measuring apparatus such as SHTB (Split-Hopkinson Tensile Bar) is essential. SHTB apparatus is a machine that can acquire the material properties of a specimen for given high-speed situation in 10 2 ~ 10 4 / sec strain rate region. In this study, a new model improved the waveform is proposed by redesigning and optimizing the initial SHTB equipment. Complete reflected pulse was not obtained, and a spurious wave was measured in original model. To obtain reliable material properties, the spurious wave must be removed or avoided. Factors affecting spurious wave were determined as length of striker bar, length of incident bar, and diameter of striker bar & flange, and verified using LS-DYNA, one of the FEM (Finite-Element Method) software. The modified model was redesigned and manufactured based on FEM results. In FEM results, the incident and reflected pulse were completely improved. Also, overlapping with spurious wave was avoided in redesigned experiment results. Redesigned model was confirmed the residual wave after the incident pulse by a pneumatic launcher and various mechanical components. However, the residual wave didn’t affect the reflected pulse and the waveform was improved than the original model. To get the reliable dynamic material properties, the optimization of measuring apparatus such as SHTB (Split-Hopkinson Tensile Bar) is essential. SHTB apparatus is a machine that can acquire the material properties of a specimen for given high-speed situation in [Formula: see text] strain rate region. In this study, a new model improved the waveform is proposed by redesigning and optimizing the initial SHTB equipment. Complete reflected pulse was not obtained, and a spurious wave was measured in original model. To obtain reliable material properties, the spurious wave must be removed or avoided. Factors affecting spurious wave were determined as length of striker bar, length of incident bar, and diameter of striker bar & flange, and verified using LS-DYNA, one of the FEM (Finite-Element Method) software. The modified model was redesigned and manufactured based on FEM results. In FEM results, the incident and reflected pulse were completely improved. Also, overlapping with spurious wave was avoided in redesigned experiment results. Redesigned model was confirmed the residual wave after the incident pulse by a pneumatic launcher and various mechanical components. However, the residual wave didn’t affect the reflected pulse and the waveform was improved than the original model. |
Author | Kim, Yeon-Bok Kim, Jeong |
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Cites_doi | 10.1098/rsta.1914.0010 10.1088/0370-1301/62/11/302 10.1016/j.ijplas.2003.06.005 10.1016/j.ijplas.2011.08.004 10.1243/0957650971537187 10.1051/epjconf/20122604017 10.1016/j.matdes.2013.06.010 10.1016/j.ijimpeng.2014.10.008 10.1007/BF02326644 10.1177/0954406219869984 10.1016/j.ijimpeng.2012.08.004 10.1177/0954406219877210 10.1016/0734-743X(94)90011-9 10.1016/S0734-743X(02)00073-8 10.1631/jzus.A1000139 10.31399/asm.hb.v08.9781627081764 10.1016/j.polymertesting.2008.02.005 |
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Keywords | spurious wave finite-element method calibration strain signal Split-Hopkinson tensile bar |
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References | Kang, Cho, Huh 1997; 12 Hopkinson 1914; 213 Robert, Christian, Nik 2012; 50 Meng, Li 2003; 28 Lifshitz, Leber 1994; 15 Shin, Lee, Kim 2019; 234 Mousawi, Reid, Deans 1997; 211 Naik, Perla 2008; 27 Kolsky 1949; 62 Lu, Lin, Wang 2015; 79 Nicholas 1981; 21 Shin, Kim 2020; 234 Huh, Lim, Park 2009; 10 Cadoni, Dotta, Forni 2016; 2 Khan, Suh, Kazmi 2004; 20 He, Xie, Zhang 2013; 52 Khan, Baig, Choi 2012; 30–31 Xu, Huang, Hao 2010; 11 Berkovic, Chabotier, Coghe 2012; 26 bibr21-16878132231199843 bibr15-16878132231199843 Kang WJ (bibr18-16878132231199843) 1997; 12 bibr11-16878132231199843 Chen W (bibr19-16878132231199843) 2010 bibr14-16878132231199843 bibr8-16878132231199843 bibr5-16878132231199843 bibr12-16878132231199843 bibr2-16878132231199843 Cadoni E (bibr9-16878132231199843) 2016; 2 Lili W. (bibr22-16878132231199843) 2007 bibr13-16878132231199843 bibr10-16878132231199843 bibr17-16878132231199843 bibr4-16878132231199843 Mousawi MM (bibr7-16878132231199843) 1997; 211 bibr1-16878132231199843 bibr20-16878132231199843 bibr6-16878132231199843 bibr16-16878132231199843 Huh H (bibr3-16878132231199843) 2009; 10 |
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bibr13-16878132231199843 doi: 10.1051/epjconf/20122604017 – ident: bibr12-16878132231199843 doi: 10.1016/j.matdes.2013.06.010 – ident: bibr4-16878132231199843 doi: 10.1016/j.ijimpeng.2014.10.008 – ident: bibr8-16878132231199843 doi: 10.1007/BF02326644 – ident: bibr17-16878132231199843 doi: 10.1177/0954406219869984 – ident: bibr21-16878132231199843 doi: 10.1016/j.ijimpeng.2012.08.004 – ident: bibr16-16878132231199843 doi: 10.1177/0954406219877210 – volume: 12 start-page: 2209 year: 1997 ident: bibr18-16878132231199843 publication-title: Korean Soc Mech Eng contributor: fullname: Kang WJ – volume-title: Split Hopkinson (Kolsky) bar: design, testing and applications year: 2010 ident: bibr19-16878132231199843 contributor: fullname: Chen W – ident: bibr5-16878132231199843 doi: 10.1016/0734-743X(94)90011-9 – ident: bibr6-16878132231199843 doi: 10.1016/S0734-743X(02)00073-8 – ident: bibr10-16878132231199843 doi: 10.1631/jzus.A1000139 – volume-title: Foundations of stress wave year: 2007 ident: bibr22-16878132231199843 contributor: fullname: Lili W. – ident: bibr20-16878132231199843 doi: 10.31399/asm.hb.v08.9781627081764 – ident: bibr11-16878132231199843 doi: 10.1016/j.polymertesting.2008.02.005 |
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Snippet | To get the reliable dynamic material properties, the optimization of measuring apparatus such as SHTB (Split-Hopkinson Tensile Bar) is essential. SHTB... |
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SubjectTerms | Diameters Finite element method Material properties Mathematical models Measuring instruments Mechanical components Redesign Strain rate Waveforms |
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Title | Redesign of Split-Hopkinson Tensile bar to eliminate spurious wave and verification of strain signal using FEM |
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