Quasi-static and dynamic crushing behaviors of aluminum and steel tubes with a cutout
Tubular members are commonly used as an energy absorber in engineering structures and many such members have a cutout. In this study, the crushing behaviors of tubes with a cutout are characterized and the effects of cutout on the energy absorption capabilities of these tubes are quantified. Systema...
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| Published in | Thin-walled structures Vol. 45; no. 3; pp. 283 - 300 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Oxford
Elsevier Ltd
01.03.2007
New York, NY Elsevier Science |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0263-8231 1879-3223 |
| DOI | 10.1016/j.tws.2007.02.010 |
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| Abstract | Tubular members are commonly used as an energy absorber in engineering structures and many such members have a cutout. In this study, the crushing behaviors of tubes with a cutout are characterized and the effects of cutout on the energy absorption capabilities of these tubes are quantified. Systematic parametric studies were carried out to study the effect of material properties, including yield and ultimate strength of material, strain rate effect, location of cutout, tube length and impact speed on the crushing behaviors and energy absorption capacity of aluminum and steel tubes. First, a numerical model was constructed with a commercial explicit finite element code. It will be first proven that the numerical simulation can produce sufficiently accurate results in an economic manner. Subsequently, the crushing behavior of aluminum and steel tubes with a cutout was experimentally characterized and their energy absorption capacity was evaluated in terms of mean crushing force, peak crushing force and specific energy absorption (SEA). Tubes of various lengths with a cutout located at different locations, subject to both quasi-static and dynamic impact loadings were considered. For steel tubes, the numerical simulation investigated the influence of the strain rate effect and variation in strain hardening ratio of the material. Empirical equations describing the mean and peak crushing forces of aluminum and steel tubes with a cutout were developed using linear and nonlinear regression methods applied to the results obtained from the numerical and experimental studies. |
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| AbstractList | Tubular members are commonly used as an energy absorber in engineering structures and many such members have a cutout. In this study, the crushing behaviors of tubes with a cutout are characterized and the effects of cutout on the energy absorption capabilities of these tubes are quantified. Systematic parametric studies were carried out to study the effect of material properties, including yield and ultimate strength of material, strain rate effect, location of cutout, tube length and impact speed on the crushing behaviors and energy absorption capacity of aluminum and steel tubes. First, a numerical model was constructed with a commercial explicit finite element code. It will be first proven that the numerical simulation can produce sufficiently accurate results in an economic manner. Subsequently, the crushing behavior of aluminum and steel tubes with a cutout was experimentally characterized and their energy absorption capacity was evaluated in terms of mean crushing force, peak crushing force and specific energy absorption (SEA). Tubes of various lengths with a cutout located at different locations, subject to both quasi-static and dynamic impact loadings were considered. For steel tubes, the numerical simulation investigated the influence of the strain rate effect and variation in strain hardening ratio of the material. Empirical equations describing the mean and peak crushing forces of aluminum and steel tubes with a cutout were developed using linear and nonlinear regression methods applied to the results obtained from the numerical and experimental studies. |
| Author | Pegg, Neil Han, Haipeng Taheri, Farid |
| Author_xml | – sequence: 1 givenname: Haipeng surname: Han fullname: Han, Haipeng organization: Department of Civil Engineering, Dalhousie University, 1360 Barrington Street, Halifax, NS, Canada B3J 2Z1 – sequence: 2 givenname: Farid surname: Taheri fullname: Taheri, Farid email: farid.taheri@dal.ca organization: Department of Civil Engineering, Dalhousie University, 1360 Barrington Street, Halifax, NS, Canada B3J 2Z1 – sequence: 3 givenname: Neil surname: Pegg fullname: Pegg, Neil organization: Defense Research and Development Canada Atlantic, 9 Grove Street, Dartmouth, NS, Canada B2Y 3Z7 |
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| Cites_doi | 10.1061/(ASCE)0733-9399(2003)129:11(1245) 10.1016/S0266-3538(00)00058-0 10.1093/qjmam/13.1.10 10.1002/nme.1293 10.1016/S0263-8231(00)00048-3 10.1016/S0924-0136(03)00821-5 10.1016/j.ijimpeng.2004.06.006 10.1016/0020-7403(93)90076-7 10.1016/j.ijsolstr.2004.05.039 10.1243/095440704772913927 10.1016/S0263-8223(03)00062-X 10.1016/j.ijsolstr.2004.02.031 10.1016/S0263-8231(01)00057-X 10.1533/ijcr.2005.0337 10.1016/j.tws.2005.11.003 10.1016/S0263-8223(03)00069-2 10.1006/jsvi.2001.3961 |
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| Keywords | Tubes Empirical equation Energy absorption Cutout Finite element Strain rate Hole Linear regression Quasi static theory Ultimate limit Regression analysis Experimental study Modeling Static load Finite element method Energy dissipation Yield strength Non linear effect Metal tube Strain hardening Crush Strength of materials Dynamic load |
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| SubjectTerms | Cutout Empirical equation Energy absorption Exact sciences and technology Finite element Fracture mechanics (crack, fatigue, damage...) Fundamental areas of phenomenology (including applications) Inelasticity (thermoplasticity, viscoplasticity...) Physics Solid mechanics Strain rate Structural and continuum mechanics Tubes Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...) |
| Title | Quasi-static and dynamic crushing behaviors of aluminum and steel tubes with a cutout |
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