B. Vinod scite author profile

B. Vinod

5Publications

12Citation Statements Received

4Citation Statements Given

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ASA College

Publications

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Investigation on Effect of Cryogenic Temperature on Mechanical Behavior of Jute and Hemp Fibers Reinforced Polymer Composites

Vinod¹,

Sudev²

2019

AMM

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In past few decades, natural fibers which are viable and abundant in nature are the emerging trends in material science as reinforcement for polymer matrix materials and they are the commute for the non-biodegradable, non-renewable and high-density synthetic fibers. Plant-based fibers such as banana, hemp, kenaf, PALF, jute, and coir has been used as reinforcement in a polymer matrix for the applications in consumer goods, furniture’s, civil and automotive structures and low-cost housing structures. The natural fibers used in this study are Hemp and Jute fibers which are finding increasing in the composite material as reinforcements. The main objective of the current work is to examine the mechanical properties of hybrid fibers (hemp and jute) reinforced epoxy composites under room temperature and at cryogenic temperature. From this study, it is clear that tensile, flexural and impact properties of polymer composites are greatly influenced by cryogenic temperature and its properties vary with respect to the extent of cryogenic treatment. The specimens are immersed in liquid nitrogen for the duration of 15, 30, 45 and 60mins and later it is subjected for tensile, flexural and impact properties. The maximum tensile strength of 21.13MPa, flexural strength of 51.95MPa and Impact strength of 8.935kJ/m2 is obtained for an untreated specimen and its value start to decrease as curing time increases. At cryogenic temperature, the material comes harder and loses its ductile property and become brittle due differ in thermal expansion coefficient of matrix and fiber material

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Study on Influence of Curing Temperature on Tensile Properties of Jute and Hemp Reinforced Hybrid Polymer Composites

Vinod¹,

Sudev²

2019

J. Phys.: Conf. Ser.

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Recent Material Advancement for Marine Application

Rohith¹,

Shreyas²,

Appaiah³

et al. 2019

Materials Today: Proceedings

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A comparative study of different natural fiber reinforced hybrid polymer composites

Vinod

Sudev

Shamanth

et al. 2020

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Study on Electrical Properties of PALF Reinforced Bisphenol-A Composite

Vinod¹,

Sudev²

2018

MATEC Web Conf.

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Abstract. These days, composite materials successfully substitute the traditional materials due to its various significant applications. This paper examines the influence of fiber orientation and fiber length on electrical properties of PALF reinforced Bisphenol-A composite and explores the potential of using PALF as reinforcing material for electrical applications such as terminals, connectors, motor body cover, industrial and household plugs and circuit boards. The resistance and inductance of resin material is increased by 24.19% and 24.13% respectively after reinforcement of PALF in different orientations and its value increased by 37.93% and 37.81% respectively after reinforcement of PALF in different lengths. Similarly, Capacitance and Dielectric constant of resin material decreased by 19.44% and 19.39% respectively after reinforcement of PALF in different orientations and its value decreased by 27.67% and 27.50% respectively after reinforcement of PALF in different lengths. It can be inferred from this study that the fiber orientations and fiber lengths greatly effects the electrical properties of PALF composite.

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B. Vinod

Investigation on Effect of Cryogenic Temperature on Mechanical Behavior of Jute and Hemp Fibers Reinforced Polymer Composites

Study on Influence of Curing Temperature on Tensile Properties of Jute and Hemp Reinforced Hybrid Polymer Composites

Recent Material Advancement for Marine Application

A comparative study of different natural fiber reinforced hybrid polymer composites

Study on Electrical Properties of PALF Reinforced Bisphenol-A Composite

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