Fracture in foam core composite sandwich beams under mixed-mode I/II/III loading conditions

Abstract: Static fracture in foam core composite sandwich beams under mixed-mode I/II/III crack loading conditions is studied theoretically by the Mixed Mode Flexure (MMF) beam configuration. The basic idea of this paper is that mixed-mode I/II/III crack loading conditions can be generated by loading the MMF sandwich beam by an inclined force (usually, the MMF beam, loaded by a vertical force, is used for investigating mixed-mode I/II fracture in continuously fiber reinforced polymer composites). Three-dimensional finit… Show more

“…These cases are summarized in detail in [34]. In the near past numerical and experimental studies on the mode-III [35,36] and mixed modes II/III, I/II/III [37–39] delamination of sandwich beams were conducted. Generally, sandwich panels and plates are fabricated by using foam [40] – which has significant damping [41] – or metal honeycomb [28,42–44] as core material, while facesheets are made from composite or metal plates [34].…”

Analytical solution of some delamination scenarios in thick structural sandwich plates

“…These cases are summarized in detail in [34]. In the near past numerical and experimental studies on the mode-III [35,36] and mixed modes II/III, I/II/III [37–39] delamination of sandwich beams were conducted. Generally, sandwich panels and plates are fabricated by using foam [40] – which has significant damping [41] – or metal honeycomb [28,42–44] as core material, while facesheets are made from composite or metal plates [34].…”

Analytical solution of some delamination scenarios in thick structural sandwich plates

Experimental and theoretical investigation of mixed-mode I/II and I/III fracture behavior of PUR foams using a novel strain-based criterion

Designing a simple and suitable laboratory test specimen for investigating the general mixed mode I/II/III fracture problem