2022
DOI: 10.1177/14750902221095321
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Feasibility of elastomeric composites as alternative materials for marine applications: A compendious review on their properties and opportunities

Abstract: The term elastomer is a curtailment of two words, which are elastic and polymers. Accordingly, elastomers are polymer materials with elasticity. The significant challenges hindering the development of materials for naval applications, similar to other engineering sectors, include achieving a competitive light elastomeric structure. Marine structures are susceptible to various damage responses due to various loads throughout their service life. Being flexible, elastomer has a low modulus of elasticity, exhibits… Show more

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Cited by 3 publications
(3 citation statements)
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References 94 publications
(120 reference statements)
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“…The maritime industry requires materials that could increase the durability, contribute toward weight reduction, and minimize production costs of marine structures. The search for a realistic alternative by naval architects and vessel builders, with properties that are prerequisites for marine applications, has created competition to fabricate new materials [20]. Earlier, steel was predominantly preferred as the traditional material for marine applications.…”
Section: Prerequisites For Marine Applicationsmentioning
confidence: 99%
“…The maritime industry requires materials that could increase the durability, contribute toward weight reduction, and minimize production costs of marine structures. The search for a realistic alternative by naval architects and vessel builders, with properties that are prerequisites for marine applications, has created competition to fabricate new materials [20]. Earlier, steel was predominantly preferred as the traditional material for marine applications.…”
Section: Prerequisites For Marine Applicationsmentioning
confidence: 99%
“…Hybridization in this section refers to the inclusion of more than one type of reinforcement in the composite material, usually merging glass fibers (or less commonly carbon fibers) and natural fibers, aiming at combining the advantageous properties of natural fibers (NFs) (such as their environmental benefits and damping characteristics [186,187]) with the favorable mechanical properties of synthetic fibers [91,188]. In addition, there are also some chemical and physical advantages specific to the marine environment that hybridization can improve, such as resistance to fire, corrosion, fungus, microbial degradation, and aqueous delamination [189].…”
Section: Hybridization Strategies (Synthetic/natural Reinforcement)mentioning
confidence: 99%
“…Currently, there is still a high global dependence on fossil fuels which require lighter sustainable materials for energy production [1,2]. Thus, the recent need to develop sustainable materials has led to the utilization of polymers as hybrid materials across different fields [3][4][5][6]. The interest in hybrid polymers such as elastomers has grown significantly over the past three (3) decades, along with scientific study.…”
Section: Introductionmentioning
confidence: 99%