The development of hybrid materials consisting of alternating layers of metal alloys and
polymeric composites has revolutionized the engineering field. These metal‐composite …

Identification of the energy dissipation behavior of fiber metal laminate under low-velocity
impact is necessary for understanding its impact response and damage mechanism, as the …

The paper presents the issues of metal surface treatment in fibre metal laminates (FML) to
obtain high adhesion at the metal–composite interface. Aluminium 2024-T3 and titanium …

In this study, experimental investigations are implemented to evaluate the effect of
incorporation of graphene nanoplatelets (GNPs) on the low-velocity impact behavior of …

Fiber metal laminates (FMLs) provide a reliable approach for achieving lightweight in high-
speed aerospace vehicles. However, the weak interfacial properties between metals and …

An effective and easily-handled strategy for enhancing the interfacial adhesion of CF/PEEK-
titanium hybrid laminates was proposed, which was achieved by introducing micro-nano …

This paper investigates the failure mechanisms of carbon/UHMWPE 2.5 D woven hybrid
composites under single and repeated low velocity impacts. Two types of specimens, carbon …

Fiber metal laminates (FMLs) have garnered significant attention due to their exceptional
impact resistance, making them attractive for various structural applications. This review …

This paper focuses on the mechanical behaviors of carbon fiber-reinforced PEEK-titanium
hybrid laminates (TiGr) under different temperatures. The tensile strength, flexural strength …

Abstract Fiber-metal laminates (FMLs), known for their lightweight and high strength, are
widely used in structural protection in the fields of shipbuilding, military, and aerospace …