Influence of Seawater Ageing on Fracture of Carbon Fiber Reinforced Epoxy Composites for Ocean Engineering

Abstract: Carbon fiber reinforced composite materials are finding new applications in highly loaded marine structures such as tidal turbine blades and marine propellers. Such applications require long-term damage resistance while being subjected to continuous seawater immersion. However, few data exist on which to base material selection and design. This paper provides a set of results from interlaminar fracture tests on specimens before and after seawater ageing. The focus is on delamination as this is the main failure… Show more

“…Composite materials have a wide range of applications in various manufacturing industries such as marine, aerospace and automotive, due to their high toughness chemical resistance and light weight [1][2][3][4][5]. Boat hulls, sonar domes, marine building, the waterfront barriers, the offshore structures, propellers and hatch covers are some of the marine applications of composites [6][7][8]. The exposure of composite materials to seawater for prolonged periods affects the materials' strength and interphase region [9].…”

“…E José-Trujillo et al [18] noted delamination, fibers de-bonding and resin crumbling in the composite due to seawater ageing. Similarly, a detailed overview of the effect of mechanical properties of various type of composite materials, such as carbon fiber-reinforced epoxies and polyetheretherketone (PEEK) composites, was presented by Guen-Geffroy et al [6]. However, there is limited literature on the use of composite material in the marine application in general and the effect of water absorption on delamination in particular, especially for short-term immersion.…”

“…Different experimental methods, i.e., Mode I, Mode II and end-loaded split (ELS), are established in the literature to measure fracture toughness in composite laminates [6]. The Mode I test method was considered as simplest of all and was used extensively by most researchers [12,13,26,27].…”

Effect of Seawater Ageing on Fracture Toughness of Stitched Glass Fiber/Epoxy Laminates for Marine Applications

“…Composite materials have a wide range of applications in various manufacturing industries such as marine, aerospace and automotive, due to their high toughness chemical resistance and light weight [1][2][3][4][5]. Boat hulls, sonar domes, marine building, the waterfront barriers, the offshore structures, propellers and hatch covers are some of the marine applications of composites [6][7][8]. The exposure of composite materials to seawater for prolonged periods affects the materials' strength and interphase region [9].…”

“…E José-Trujillo et al [18] noted delamination, fibers de-bonding and resin crumbling in the composite due to seawater ageing. Similarly, a detailed overview of the effect of mechanical properties of various type of composite materials, such as carbon fiber-reinforced epoxies and polyetheretherketone (PEEK) composites, was presented by Guen-Geffroy et al [6]. However, there is limited literature on the use of composite material in the marine application in general and the effect of water absorption on delamination in particular, especially for short-term immersion.…”

“…Different experimental methods, i.e., Mode I, Mode II and end-loaded split (ELS), are established in the literature to measure fracture toughness in composite laminates [6]. The Mode I test method was considered as simplest of all and was used extensively by most researchers [12,13,26,27].…”

Effect of Seawater Ageing on Fracture Toughness of Stitched Glass Fiber/Epoxy Laminates for Marine Applications

“…This is a powerful method to enable the interaction of local singularities with a propagating crack to be characterized, and fracture mechanics values are being increasingly integrated in design in order to evaluate damage tolerance. A recent paper describes these tests [ 25 ].…”

“…This is a powerful method to enable the interaction of local singularities with a propagating crack to be characterized, and fracture mechanics values are being increasingly integrated in design in order to evaluate damage tolerance. A recent paper describes these tests [25]. This paper will examine the influence of singularities deliberately introduced at the mid plane of [90/0 7 /90] S laminates on the out-of-plane fracture properties of the same carbon/epoxy composites as those previously studied under in-plane loading [17,18].…”

Influence of Embedded Gap and Overlap Fiber Placement Defects on Interlaminar Properties of High Performance Composites

Impact properties of carbon fibers-epoxy composite/aluminum laminates: effect of cryogenic and thermal aging