Sarath Sasidharan scite author profile

Sarath Sasidharan

2Publications

39Citation Statements Received

363Citation Statements Given

How they've been cited

How they cite others

362

363

Affiliations

Ministry of Defence, Research & Development Establishment (Engrs.), National Institute of Technology Calicut

Publications

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Epoxy-Based Hybrid Structural Composites with Nanofillers: A Review

Sasidharan

Anand

2020

Ind. Eng. Chem. Res.

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Research and development in the field of structural composites have explored various combinations of materials and methods to fulfill the load-bearing demands of industries such as automotive, aerospace, military, civil, and construction. Continuous fiber-reinforced composites based on epoxy are extensively used for primary load-bearing structural applications, owing to their unique characteristics and abilities compared to their counterparts with other polymers, thermosets in particular. With the introduction of nanotechnology and the resultant development of a new class of materials called nanomaterials, it has been observed that various properties of composites can be enhanced by the incorporation of these materials into composites. Different nanofiller materials have different effects on composite properties. This review focuses on a survey of literature published over the last two decades in which nanofillers were utilized to enhance the structural properties of epoxy-based fiber-reinforced composites. Composite modifications using carbon-based nanomaterials (fullerenes, carbon nanotubes, carbon nanofibers, graphene nanoplatelets, graphene oxide), nanosilica, nanoclay, etc. are discussed in detail. A brief summary of the use of a combination of nanofillers and attempts on the modification of reinforcement fabric is also presented.

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Cyanate Ester—Epoxy Blends for Structural and Functional Composites

Salunke

Sasidharan

Gopinathapanicker

et al. 2021

Ind. Eng. Chem. Res.

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The blending of conventionally available polymers has been extensively investigated over the past several decades and is considered as an alternative cost-effective method for the development of new polymers for specific applications. The blending of thermosets invites special attention as many of them can be used as matrices for composites for primary load-bearing applications. Cyanate ester and epoxy are two of the most popular thermoset polymers used across various industries such as aerospace, automobile, military, and civil sectors. Nevertheless, each of these resins has its limitations when used individually. Hence the blending of cyanate ester and epoxy is significant, for both commercial and academic interests. In this article, investigations on blends of cyanate ester and epoxy are reviewed based on their properties. Emphasis has been made on modifications of such blends resulting in improvements in mechanical, thermal, and other functional properties. Various applications employing these thermoset blends are discussed subsequently.

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