Metaconcrete: designed aggregates to enhance dynamic performance

We propose a new type of concrete for the attenuation of elastic waves induced by dynamic excitation. In this metamaterial, which we call metaconcrete, the stone, sand, and gravel aggregates of standard concrete are replaced with spherical inclusions consisting of a heavy metal core coated with a so...

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Published inJournal of the mechanics and physics of solids Vol. 65; pp. 69 - 81
Main Authors Mitchell, Stephanie J., Pandolfi, Anna, Ortiz, Michael
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2014
Subjects
Aggregates
Dynamical systems
Dynamics
Effective mass
Engineered concrete
Finite element simulations
Inclusions
Loads (forces)
Metamaterials
Mortars
Resonant aggregates
Sand
Metamaterials
Finite element simulations
Engineered concrete
Effective mass
Resonant aggregates
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Abstract We propose a new type of concrete for the attenuation of elastic waves induced by dynamic excitation. In this metamaterial, which we call metaconcrete, the stone, sand, and gravel aggregates of standard concrete are replaced with spherical inclusions consisting of a heavy metal core coated with a soft outer layer. These engineered aggregates can be tuned so that particular frequencies of a propagating blast wave will activate resonant oscillations of the heavy mass within the inclusions. The resonant behavior causes the system to exhibit negative effective mass, and this interaction between the wave motion and the resonant aggregates results in the attenuation of the applied dynamic loading. We introduce the concept of negative mass by deriving the effective momentum mass for the system and we define the geometrical and material parameters for the design of resonant aggregates. We develop finite element models for the analysis of metaconcrete behavior, defining a section of slab containing a periodic arrangement of inclusions. By computing the energy histories for the system when subject to a blast load, we show that there is a transfer of energy between the inclusions and the surrounding mortar. The inclusions are able to absorb a significant portion of the applied energy, resulting in a reduction in the amount of stress carried by the mortar phase and greatly improving the ability of the material to resist damage under explosive dynamic loading.
AbstractList We propose a new type of concrete for the attenuation of elastic waves induced by dynamic excitation. In this metamaterial, which we call metaconcrete, the stone, sand, and gravel aggregates of standard concrete are replaced with spherical inclusions consisting of a heavy metal core coated with a soft outer layer. These engineered aggregates can be tuned so that particular frequencies of a propagating blast wave will activate resonant oscillations of the heavy mass within the inclusions. The resonant behavior causes the system to exhibit negative effective mass, and this interaction between the wave motion and the resonant aggregates results in the attenuation of the applied dynamic loading. We introduce the concept of negative mass by deriving the effective momentum mass for the system and we define the geometrical and material parameters for the design of resonant aggregates. We develop finite element models for the analysis of metaconcrete behavior, defining a section of slab containing a periodic arrangement of inclusions. By computing the energy histories for the system when subject to a blast load, we show that there is a transfer of energy between the inclusions and the surrounding mortar. The inclusions are able to absorb a significant portion of the applied energy, resulting in a reduction in the amount of stress carried by the mortar phase and greatly improving the ability of the material to resist damage under explosive dynamic loading.
Author Pandolfi, Anna
Mitchell, Stephanie J.
Ortiz, Michael
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  givenname: Anna
  surname: Pandolfi
  fullname: Pandolfi, Anna
  email: anna.pandolfi@polimi.it
  organization: DICA, Politecnico di Milano, 20133 Milano, Italy
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  givenname: Michael
  surname: Ortiz
  fullname: Ortiz, Michael
  organization: EAS Division, California Institute of Technology, Pasadena, CA 91125, USA
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Snippet We propose a new type of concrete for the attenuation of elastic waves induced by dynamic excitation. In this metamaterial, which we call metaconcrete, the...
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SubjectTerms Aggregates
Dynamical systems
Dynamics
Effective mass
Engineered concrete
Finite element simulations
Inclusions
Loads (forces)
Metamaterials
Mortars
Resonant aggregates
Sand
Title Metaconcrete: designed aggregates to enhance dynamic performance
URI https://dx.doi.org/10.1016/j.jmps.2014.01.003
https://www.proquest.com/docview/1559653898
https://www.proquest.com/docview/1677920066
Volume 65
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