Vivekanandhan Chinnasamy scite author profile

The study of natural fiber-based composites through the use of computational techniques for modelling and optimizing their properties has emerged as a fast-growing approach in recent years. Ecological concerns associated with synthetic fibers have made the utilisation of natural fibers as a reinforcing material in composites a popular approach. Computational techniques have become an important tool in the hands of many researchers to model and analyze the characteristics that influence the mechanical properties of natural fiber composites. This recent trend has led to the development of many advanced computational techniques and software for a profound understanding of the characteristics and performance behavior of composite materials reinforced with natural fibers. The large variations in the characteristics of natural fiber-based composites present a great challenge, which has led to the development of many computational techniques for composite materials analysis. This review seeks to infer, from conventional to contemporary sources, the computational techniques used in modelling, analyzing, and optimizing the mechanical characteristics of natural fiber reinforced composite materials.

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Characterization on thermal properties of glass fiber and kevlar fiber with modified epoxy hybrid composites

Chinnasamy

Subramani²,

Palaniappan

et al. 2020

Journal of Materials Research and Technology

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Effect of surface treatment on the tribological properties of Coccinia Indica cellulosic fiber reinforced polymer composites

Mylsamy¹,

Chinnasamy

Palaniappan

et al. 2020

Journal of Materials Research and Technology

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Effect of Blend Ratio on the Thermal Comfort Characteristics of Cotton/Bamboo Blended Fabrics

Aruchamy¹,

Subramani²,

Palaniappan

et al. 2020

Journal of Natural Fibers

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Concise review on the mechanical characteristics of hybrid natural fibres with filler content

Mulenga¹,

Ude²,

Chinnasamy

2020

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