4.6 Article

Compressive behaviour of a nickel superalloy Superni 263 honeycomb sandwich panel

Journal

JOURNAL OF SANDWICH STRUCTURES & MATERIALS
Volume 22, Issue 5, Pages 1426-1449

Publisher

SAGE PUBLICATIONS LTD
DOI: 10.1177/1099636218786438

Keywords

Honeycomb sandwich panel; deformation behaviour; nickel superalloy Superni 263; flat compression; cell wall bending

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Metallic thermal protection systems comprising of sandwich panels consisting of hexagonal honeycomb sandwich structures are envisaged to be used in advanced transportation systems like hypersonic vehicles and reusable launch vehicles. The assessment of compressive mechanical behaviour is necessary to understand the response of sandwich structures to aerothermal loads. The fabrication methodology for realizing Ni based superalloy Superni 263 hexagonal honeycomb sandwich panels is established. This work is aimed at understanding the effect of sandwich panel geometry parameters like hexagonal cell size and core thickness on the out-of-plane flatwise compressive behaviour at room temperature. The ultimate compressive strength decreases with increasing core height irrespective of the cell sizes investigated. The dependence of specific compressive strength on the cell size is established by a power law relationship. The compressed sandwich panels subjected to understand the deformation behaviour indicated the dominance of cell wall bending and occasional fracture, however in the case of sandwich panels with higher core thickness cell wall buckling coupled with shearing at the face sheet vicinity is noticed.

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