A protocol for characterizing the structural performance of metallic sandwich panels: application to pyramidal truss cores

All-metallic sandwich panels with truss and prismatic cores have impending application as ultra-light load bearing panels amenable to simultaneous active cooling and blast resistance. To facilitate application, a protocol for characterizing the structural performance of such panels is needed that ca...

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Veröffentlicht in:	International journal of solids and structures 2004-11, Vol.41 (22), p.6249-6271
Hauptverfasser:	Zok, F.W., Waltner, S.A., Wei, Z., Rathbun, H.J., McMeeking, R.M., Evans, A.G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Clamped bending Constitutive law Finite element model Pyramidal core Sandwich panel Three-point bending
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container_end_page	6271
container_issue	22
container_start_page	6249
container_title	International journal of solids and structures
container_volume	41
creator	Zok, F.W. Waltner, S.A. Wei, Z. Rathbun, H.J. McMeeking, R.M. Evans, A.G.
description	All-metallic sandwich panels with truss and prismatic cores have impending application as ultra-light load bearing panels amenable to simultaneous active cooling and blast resistance. To facilitate application, a protocol for characterizing the structural performance of such panels is needed that can be used for design calculations. An approach capable of realizing this objective is presented and demonstrated for panels with pyramidal truss cores. It combines measurements, mechanism maps, finite element simulations and optimization. Mechanism maps based on beam theory are used to characterize face and core dimensions as well as to estimate minimum weight designs. Experimental measurements and finite element calculations are used to calibrate and understand the responses of the core in transverse compression, in-plane shear and stretch. Overlaying the measurements and simulations allows assessment of the mechanical properties of the core material, as affected by fabrication. The updated results are used to establish and calibrate an orthotropic constitutive law for the core. Bending tests performed on panels subject to two end constraints are used to assess the fidelity of the core constitutive law. The tests are simulated by using a stress/strain response for the faces obtained from independent tensile measurements. The comparison reveals that the loads are predicted quite accurately. However, when controlled by the core, the simulations predict a more abrupt yield point than that found experimentally.
doi_str_mv	10.1016/j.ijsolstr.2004.05.045
format	Article
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To facilitate application, a protocol for characterizing the structural performance of such panels is needed that can be used for design calculations. An approach capable of realizing this objective is presented and demonstrated for panels with pyramidal truss cores. It combines measurements, mechanism maps, finite element simulations and optimization. Mechanism maps based on beam theory are used to characterize face and core dimensions as well as to estimate minimum weight designs. Experimental measurements and finite element calculations are used to calibrate and understand the responses of the core in transverse compression, in-plane shear and stretch. Overlaying the measurements and simulations allows assessment of the mechanical properties of the core material, as affected by fabrication. The updated results are used to establish and calibrate an orthotropic constitutive law for the core. 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To facilitate application, a protocol for characterizing the structural performance of such panels is needed that can be used for design calculations. An approach capable of realizing this objective is presented and demonstrated for panels with pyramidal truss cores. It combines measurements, mechanism maps, finite element simulations and optimization. Mechanism maps based on beam theory are used to characterize face and core dimensions as well as to estimate minimum weight designs. Experimental measurements and finite element calculations are used to calibrate and understand the responses of the core in transverse compression, in-plane shear and stretch. Overlaying the measurements and simulations allows assessment of the mechanical properties of the core material, as affected by fabrication. The updated results are used to establish and calibrate an orthotropic constitutive law for the core. Bending tests performed on panels subject to two end constraints are used to assess the fidelity of the core constitutive law. The tests are simulated by using a stress/strain response for the faces obtained from independent tensile measurements. The comparison reveals that the loads are predicted quite accurately. However, when controlled by the core, the simulations predict a more abrupt yield point than that found experimentally.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.ijsolstr.2004.05.045</doi><tpages>23</tpages></addata></record>
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subjects	Clamped bending Constitutive law Finite element model Pyramidal core Sandwich panel Three-point bending
title	A protocol for characterizing the structural performance of metallic sandwich panels: application to pyramidal truss cores
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