Deformation and fracture modes of sandwich structures subjected to underwater impulsive loads
Lapo F. Mori,Songsoo F. Lee,Zhenyu Xue,Ashkan Vaziri,Doug T. Queheillalt,Kumar P. Dharmasena,Haydn N. G. Wadley,John W. Hutchinson,Horacio D. Espinosa +8 more
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In this paper, steel square honeycomb and pyramidal truss core sandwich panels with core relative densities of 4% were made from a ductile stainless steel and tested under impulsive loads simulating underwater blasts.Abstract:
Sandwich panel structures with thin front faces and low relative density cores offer significant impulse mitigation possibilities provided panel fracture is avoided. Here steel square honeycomb and pyramidal truss core sandwich panels with core relative densities of 4% were made from a ductile stainless steel and tested under impulsive loads simulating underwater blasts. Fluid-structure interaction experiments were performed to (i) demonstrate the benefits of sandwich structures with respect to solid plates of equal weight per unit area, (ii) identify failure modes of such structures, and (iii) assess the accuracy of finite element models for simulating the dynamic structural response. Both sandwich structures showed a 30% reduction in the maximum panel deflection compared with a monolithic plate of identical mass per unit area. The failure modes consisted of core crushing, core node imprinting/punch through/tearing and stretching of the front face sheet for the pyramidal truss core panels. Finite element analyses, based on an orthotropic homogenized constitutive model, predict the overall structural response and in particular the maximum panel displacement.read more
Citations
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Dynamic crushing and energy absorption of regular, irregular and functionally graded cellular structures
TL;DR: In this paper, the in-plane dynamic crushing of two-dimensional honeycombs with both regular hexagonal and irregular arrangements was investigated using detailed finite element models, and three distinct crushing modes for honeycomb with a constant relative density: quasi-static, transition and dynamic.
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Fabrication and crushing behavior of low density carbon fiber composite pyramidal truss structures
TL;DR: In this article, a new method for fabricating carbon fiber composite pyramidal truss cores was developed based on the molding hot-press technique, where all the continuous fibers of composite are aligned in the direction of struts and thus, the truss structure can fully exploit the intrinsic strength of the fiber reinforced composite.
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An approach for incorporating classical continuum damage models in state-based peridynamics
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Response of metallic pyramidal lattice core sandwich panels to high intensity impulsive loading in air
TL;DR: In this article, small scale explosive loading of sandwich panels with low relative density pyramidal lattice cores has been used to study the large scale bending and fracture response of a model sandwich panel system in which the core has little stretch resistance.
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Plastic Deformation, Failure and Energy Absorption of Sandwich Structures with Metallic Cellular Cores
TL;DR: In this article, the responses of sandwich structure with such cores subjected to different loads, i.e., quasi-static/low velocity compression and indentation, ballistic impact, high speed compression and blast loading, are reviewed.
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Smoothing and Differentiation of Data by Simplified Least Squares Procedures.
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