Dynamic crushing and energy absorption of regular, irregular and functionally graded cellular structures
The in-plane dynamic crushing of two dimensional honeycombs with both regular hexagonal and irregular arrangements was investigated using detailed finite element models. The energy absorption of honeycombs made of a linear elastic-perfectly plastic material with constant and functionally graded dens...
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| Published in | International journal of solids and structures Vol. 48; no. 3; pp. 506 - 516 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Kidlington
Elsevier Ltd
01.02.2011
Elsevier |
| Subjects | |
| Online Access | Get full text |
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| Abstract | The in-plane dynamic crushing of two dimensional honeycombs with both regular hexagonal and irregular arrangements was investigated using detailed finite element models. The energy absorption of honeycombs made of a linear elastic-perfectly plastic material with constant and functionally graded density were estimated up to large crushing strains. Our numerical simulations showed three distinct crushing modes for honeycombs with a constant relative density: quasi-static, transition and dynamic. Moreover, irregular cellular structures showed to have energy absorption similar to their counterpart regular honeycombs of same relative density and mass. To study the dynamic crushing of functionally graded cellular structures, a density gradient in the direction of crushing was introduced in the computational models by a gradual change of the cell wall thickness. Decreasing the relative density in the direction of crushing was shown to enhance the energy absorption of honeycombs at early stages of crushing. The study provides new insight into the behavior of engineered and biological cellular materials, and could be used to develop novel energy absorbent structures. |
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| AbstractList | The in-plane dynamic crushing of two dimensional honeycombs with both regular hexagonal and irregular arrangements was investigated using detailed finite element models. The energy absorption of honeycombs made of a linear elastic-perfectly plastic material with constant and functionally graded density were estimated up to large crushing strains. Our numerical simulations showed three distinct crushing modes for honeycombs with a constant relative density: quasi-static, transition and dynamic. Moreover, irregular cellular structures showed to have energy absorption similar to their counterpart regular honeycombs of same relative density and mass. To study the dynamic crushing of functionally graded cellular structures, a density gradient in the direction of crushing was introduced in the computational models by a gradual change of the cell wall thickness. Decreasing the relative density in the direction of crushing was shown to enhance the energy absorption of honeycombs at early stages of crushing. The study provides new insight into the behavior of engineered and biological cellular materials, and could be used to develop novel energy absorbent structures. |
| Author | Ajdari, Amin Vaziri, Ashkan Nayeb-Hashemi, Hamid |
| Author_xml | – sequence: 1 givenname: Amin surname: Ajdari fullname: Ajdari, Amin – sequence: 2 givenname: Hamid surname: Nayeb-Hashemi fullname: Nayeb-Hashemi, Hamid – sequence: 3 givenname: Ashkan surname: Vaziri fullname: Vaziri, Ashkan email: vaziri@coe.neu.edu |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=23734436$$DView record in Pascal Francis |
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| Keywords | Honeycombs Energy absorption Functionally graded material Cellular structures Cell structure High strain Deformation modulus Cellular material Quasi static theory Wall thickness Porous material Modeling Finite element method Inelasticity Elastoplasticity Honeycomb structure Energy dissipation Functionnally graded material Plasticity Biomaterial Density gradient Crush |
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| SubjectTerms | Cellular structure Cellular structures Crushing Density Dynamics Energy absorption Exact sciences and technology Functionally graded material Fundamental areas of phenomenology (including applications) Honeycomb Honeycomb construction Honeycombs Inelasticity (thermoplasticity, viscoplasticity...) Mathematical models Physics Solid mechanics Static elasticity (thermoelasticity...) Structural and continuum mechanics |
| Title | Dynamic crushing and energy absorption of regular, irregular and functionally graded cellular structures |
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