Deformation patterns and their stability in finitely strained circular cell honeycombs

The mechanics of cellular honeycombs—part of the rapidly growing field of architected materials—in addition to its importance for engineering applications has a great theoretical interest due to the complex bifurcation mechanisms leading to failure in these nonlinear structures of high initial symme...

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Published in	Journal of the mechanics and physics of solids Vol. 142; p. 103976
Main Authors	Combescure, Christelle, Elliott, Ryan S., Triantafyllidis, Nicolas
Format	Journal Article
Language	English
Published	London Elsevier Ltd 01.09.2020 Elsevier BV Elsevier
Subjects	A. Bifurcation A. Buckling instability B. Cellular solids Bifurcation theory Boundary conditions C. Energy methods C. Group theory Materials and structures in mechanics Mechanics Orbital stability Orbits Physics Solid mechanics Structural mechanics Symmetry C. Group theory A. Bifurcation A. Buckling instability B. Cellular solids C. Energy methods
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Abstract	The mechanics of cellular honeycombs—part of the rapidly growing field of architected materials—in addition to its importance for engineering applications has a great theoretical interest due to the complex bifurcation mechanisms leading to failure in these nonlinear structures of high initial symmetry. Of particular interest to this work are the deformation patterns and their stability of finitely strained circular cell honeycomb. Given the high degree of symmetry of these structures, the introduction of numerical imperfections is inadequate for the study of their behavior past the onset of first bifurcation. Thus, we further develop and explain a group-theoretic approach to investigate their deformation patterns, a consistent and general methodology that systematically finds bifurcated equilibrium orbits and their stability. We consider two different geometric arrangements, hexagonal and square, biaxial compression along loading paths, either aligned or at an angle with respect to the axes of orthotropy, and different constitutive laws for the cell walls which can undergo arbitrarily large rotations, as required by the finite macroscopic strains applied. We find that the first bifurcation in biaxially loaded hexagonal honeycombs of infinite extent always corresponds to a local mode, which is then followed to find the deformation pattern and its stability. Depending on load path orientation, these first bifurcations can be simple, double or even triple. All bifurcated orbits found are unstable and have a maximum load close to their point of emergence. In contrast, the corresponding instability in square honeycombs always corresponds to a global mode and hence the deformation pattern will depend on specimen size and boundary conditions.
AbstractList	The mechanics of cellular honeycombs-part of the rapidly growing field of architected materials-in addition to its importance for engineering applications has a great theoretical interest due to the complex bifurcation mechanisms leading to failure in these nonlinear structures of high initial symmetry. Of particular interest to this work are the deformation patterns and their stability of finitely strained circular cell honeycomb. Given the high degree of symmetry of these structures, the introduction of numerical imperfections is inadequate for the study of their behavior past the onset of first bifurcation. Thus, we further develop and explain a group-theoretic approach to investigate their deformation patterns, a consistent and general methodology that systematically finds bifurcated equilibrium orbits and their stability. We consider two different geometric arrangements, hexagonal and square, biaxial compression along loading paths, either aligned or at an angle with respect to the axes of orthotropy, and different constitutive laws for the cell walls which can undergo arbitrarily large rotations, as required by the finite macroscopic strains applied. We find that the first bifurcation in biaxially loaded hexagonal honeycombs of infinite extent always corresponds to a local mode, which is then followed to find the deformation pattern and its stability. Depending on load path orientation, these first bifurcations can be simple, double or even triple. All bifurcated orbits found are unstable and have a maximum load close to their point of emergence. In contrast, the corresponding instability in square honeycombs always corresponds to a global mode and hence the deformation pattern will depend on specimen size and boundary conditions. The mechanics of cellular honeycombs—part of the rapidly growing field of architected materials—in addition to its importance for engineering applications has a great theoretical interest due to the complex bifurcation mechanisms leading to failure in these nonlinear structures of high initial symmetry. Of particular interest to this work are the deformation patterns and their stability of finitely strained circular cell honeycomb. Given the high degree of symmetry of these structures, the introduction of numerical imperfections is inadequate for the study of their behavior past the onset of first bifurcation. Thus, we further develop and explain a group-theoretic approach to investigate their deformation patterns, a consistent and general methodology that systematically finds bifurcated equilibrium orbits and their stability. We consider two different geometric arrangements, hexagonal and square, biaxial compression along loading paths, either aligned or at an angle with respect to the axes of orthotropy, and different constitutive laws for the cell walls which can undergo arbitrarily large rotations, as required by the finite macroscopic strains applied. We find that the first bifurcation in biaxially loaded hexagonal honeycombs of infinite extent always corresponds to a local mode, which is then followed to find the deformation pattern and its stability. Depending on load path orientation, these first bifurcations can be simple, double or even triple. All bifurcated orbits found are unstable and have a maximum load close to their point of emergence. In contrast, the corresponding instability in square honeycombs always corresponds to a global mode and hence the deformation pattern will depend on specimen size and boundary conditions.
ArticleNumber	103976
Author	Triantafyllidis, Nicolas Elliott, Ryan S. Combescure, Christelle
Author_xml	– sequence: 1 givenname: Christelle surname: Combescure fullname: Combescure, Christelle organization: Laboratoire Modélisation et Simulation Multi-Echelles, Université Paris-Est (UPEM), Marne-la-Vallée 77454, France – sequence: 2 givenname: Ryan S. surname: Elliott fullname: Elliott, Ryan S. organization: Department of Aerospace Engineering and Mechanics, University of Minnesota, Minneapolis, MN 55455, USA – sequence: 3 givenname: Nicolas surname: Triantafyllidis fullname: Triantafyllidis, Nicolas email: nicolas.triantafyllidis@polytechnique.edu organization: Laboratoire de Mécanique des Solides (CNRS UMR 7649), Ecole Polytechnique, Institut Polytechnique de Paris, France
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Keywords	C. Group theory A. Bifurcation A. Buckling instability B. Cellular solids C. Energy methods
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Snippet	The mechanics of cellular honeycombs—part of the rapidly growing field of architected materials—in addition to its importance for engineering applications has... The mechanics of cellular honeycombs-part of the rapidly growing field of architected materials-in addition to its importance for engineering applications has...
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SubjectTerms	A. Bifurcation A. Buckling instability B. Cellular solids Bifurcation theory Boundary conditions C. Energy methods C. Group theory Materials and structures in mechanics Mechanics Orbital stability Orbits Physics Solid mechanics Structural mechanics Symmetry
Title	Deformation patterns and their stability in finitely strained circular cell honeycombs
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