Abstract
Fibre reinforced polymer laminated composites are susceptible to impact damage during manufacture, normal operation, maintenance, and/or other stages of their life cycle. Initiation and growth of such damage lead to dramatic loss in the structural integrity and strength of laminates. This damage is generally difficult to detect and repair. This makes it important to find a preventive solution. There has been abundance of research dealing with the impact damage evolution of composite laminates and methods to mitigate and alleviate the damage initiation and growth. This article presents a comprehensive review of different strategies dealing with development of new composite materials investigated by several research groups that can be used to mitigate the low velocity impact damage in laminated composites. Hybrid composites, composites with tough thermoplastic resins, modified matrices, surface modification of fibres, translaminar reinforcements, and interlaminar modifications such as interleaving, short fibre reinforcement, and particle based interlayer are discussed in this article. A critical evaluation of various techniques capable of enhancing impact performance of laminated composites and future directions in this research field are presented in this article.
Highlights
Materials have coexisted and connected with mankind virtually from the very beginning of man’s existence in satisfying variety of needs
This article presents a comprehensive review of different strategies dealing with development of new composite materials investigated by several research groups that can be used to mitigate the low velocity impact damage in laminated composites
It is obvious that susceptibility to damage due to low velocity impact is one of the predominant limitations in the usage of composite laminates
Summary
Materials have coexisted and connected with mankind virtually from the very beginning of man’s existence in satisfying variety of needs. Composite material is constructed by the combination of two or more different materials to induce incomparable blend of properties. This description is more general and can include all classes of materials such as metallic, ceramic, polymers, wood, and other minerals. Matrix materials give shape to composites and protect fibres against environment and chemical attack. Both thermosetting and thermoplastic matrices are used in laminated composites with thermosets offering greater thermal and dimensional stability, higher rigidity, and chemical resistance. Epoxy resin is widely used as thermoset matrix in fibre reinforced composites because of its remarkable mechanical properties, low shrinkage, strong adhesion, chemical stability, and dimensional stability
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