Experimental analysis of quasi-static indentation in composite sandwich multilayers with corrugated core

Benyamin Vahidimanesh, Mohammad Sajjad Gazor, Amin Farrokhabadi

Research output: Journal PublicationArticlepeer-review

Abstract

This study examines the effects of multilayering in sandwich panel composite structures with different corrugated core configurations under quasi-static indentation loading. The panels were fabricated using woven glass fibers and epoxy resin via the Vacuum Infusion Process. Experiments were conducted using two hemispherical cylindrical indenters with a diameter of 20 mm (ID = 20 mm) and 10 mm (ID = 10 mm) and the behavior of the composite structure in terms of contact force and fracture mechanisms for different core corrugations (square and butterfly) were investigated in two ways with foam and without foam. The experimental results demonstrate that, among corrugated core geometries without foam, butterfly cores outperform square cores in terms of structural strength, maximum force, moment force, energy absorption, specific energy absorption, and displacement until full indentation. Moreover, the butterfly core shows a higher peak load and different failure mechanisms compared to the square core. Under loading with a 10 mm indenter, the butterfly core without foam only experienced perforation in the loading area, without fracture completely. Also, adding foam did not change failure mechanisms and mechanical behavior in the butterfly geometry. However, in the square geometry, foam filled gaps between the core, preventing fracture completely and leading to only perforation in the loading area, unlike the specimen without foam. The visual analysis during the quasi-static indentation process revealed several significant damage mechanisms, including matrix cracking, fiber breakage, delamination, buckling and crushing of cell walls, damage to top sheets, core separation, and complete indentation of the samples. Highlights: Delamination and indentation failure mechanisms were seen on the butterfly core. Skin indentation and rib fracture failure mechanisms were seen on the square core. Butterfly corrugated cores revealed the best performance without/with foam. The core shape was more effective on the strength than the foam addition.

Original languageEnglish
JournalPolymer Composites
DOIs
Publication statusPublished - 1 Oct 2024

Keywords

  • composite
  • experimental analysis
  • indentation
  • multilayer
  • quasi-static

ASJC Scopus subject areas

  • Ceramics and Composites
  • General Chemistry
  • Polymers and Plastics
  • Materials Chemistry

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