Shock analysis and optimization of two-layered cellular materials subject to pulse loading

We present the method of characteristics with mass, momentum, and energy conservation to solve the nonlinear wave equation with shock formation in a two layer one-dimensional rod made of cellular material. We show that the rigid-perfectly-plastic-locking model cannot predict shock formation at a mat...

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Published inInternational journal of impact engineering Vol. 57; pp. 55 - 69
Main Authors Goetz, John C., Matouš, Karel
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2013
Subjects
Cellular
Cellular material
Design engineering
Energy conservation
Gain
Mathematical models
Method of characteristics
Optimization
Plasticity
Shock wave
Stress-strain relationships
Cellular material
Shock wave
Optimization
Plasticity
Online AccessGet full text
ISSN0734-743X
1879-3509
DOI10.1016/j.ijimpeng.2013.01.001

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Abstract We present the method of characteristics with mass, momentum, and energy conservation to solve the nonlinear wave equation with shock formation in a two layer one-dimensional rod made of cellular material. We show that the rigid-perfectly-plastic-locking model cannot predict shock formation at a material interface, so we propose an elastic–plastic-densifying model to describe the stress–strain behavior of the cellular materials. The conditions for shock formation at a material interface are provided. We conduct a two-layer analysis to gain insights into the behavior of two layer cellular systems and to determine which material properties are most important for design. Finally, we optimize the significant parameters to reduce the length of one and two layered cellular systems with impulse and mass constraints subject to pulse loading. The results reinforce the concept of sandwich structures and show that two layer systems can achieve a 30% reduction in length over single layer ones. ► We present the method of characteristics with mass, momentum, and energy conservation to solve the nonlinear wave equation. ► We show that the rigid-perfectly-plastic-locking model cannot predict shock formation at a material interface. ► We provide the conditions for shock formation at a material interface. ► We conduct parametric and sensitivity studies to gain insights into the behavior of two layer cellular systems. ► We optimize significant parameters to reduce the length of one and two layered cellular systems subject to pulse loading.
AbstractList We present the method of characteristics with mass, momentum, and energy conservation to solve the nonlinear wave equation with shock formation in a two layer one-dimensional rod made of cellular material. We show that the rigid-perfectly-plastic-locking model cannot predict shock formation at a material interface, so we propose an elastic-plastic-densifying model to describe the stress-strain behavior of the cellular materials. The conditions for shock formation at a material interface are provided. We conduct a two-layer analysis to gain insights into the behavior of two layer cellular systems and to determine which material properties are most important for design. Finally, we optimize the significant parameters to reduce the length of one and two layered cellular systems with impulse and mass constraints subject to pulse loading. The results reinforce the concept of sandwich structures and show that two layer systems can achieve a 30% reduction in length over single layer ones.
We present the method of characteristics with mass, momentum, and energy conservation to solve the nonlinear wave equation with shock formation in a two layer one-dimensional rod made of cellular material. We show that the rigid-perfectly-plastic-locking model cannot predict shock formation at a material interface, so we propose an elastic–plastic-densifying model to describe the stress–strain behavior of the cellular materials. The conditions for shock formation at a material interface are provided. We conduct a two-layer analysis to gain insights into the behavior of two layer cellular systems and to determine which material properties are most important for design. Finally, we optimize the significant parameters to reduce the length of one and two layered cellular systems with impulse and mass constraints subject to pulse loading. The results reinforce the concept of sandwich structures and show that two layer systems can achieve a 30% reduction in length over single layer ones. ► We present the method of characteristics with mass, momentum, and energy conservation to solve the nonlinear wave equation. ► We show that the rigid-perfectly-plastic-locking model cannot predict shock formation at a material interface. ► We provide the conditions for shock formation at a material interface. ► We conduct parametric and sensitivity studies to gain insights into the behavior of two layer cellular systems. ► We optimize significant parameters to reduce the length of one and two layered cellular systems subject to pulse loading.
Author Goetz, John C.
Matouš, Karel
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Snippet We present the method of characteristics with mass, momentum, and energy conservation to solve the nonlinear wave equation with shock formation in a two layer...
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SubjectTerms Cellular
Cellular material
Design engineering
Energy conservation
Gain
Mathematical models
Method of characteristics
Optimization
Plasticity
Shock wave
Stress-strain relationships
Title Shock analysis and optimization of two-layered cellular materials subject to pulse loading
URI https://dx.doi.org/10.1016/j.ijimpeng.2013.01.001
https://www.proquest.com/docview/1448715998
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