J
J.S. Binoj
Researcher at Sree Vidyanikethan Engineering College
Publications - 74
Citations - 1007
J.S. Binoj is an academic researcher from Sree Vidyanikethan Engineering College. The author has contributed to research in topics: Ultimate tensile strength & Composite number. The author has an hindex of 11, co-authored 43 publications receiving 362 citations.
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Morphological, Physical, Mechanical, Chemical and Thermal Characterization of Sustainable Indian Areca Fruit Husk Fibers (Areca Catechu L.) as Potential Alternate for Hazardous Synthetic Fibers
TL;DR: In this article, a comprehensive characterization of AFH fiber is done to examine its morphological, physical, mechanical, chemical and thermal properties, and the results confirm the potential of FAH fibers as a reinforcement in bio-reinforced polymer composites for automotive and structural applications.
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Comprehensive characterization of natural cellulosic fiber from Coccinia grandis stem.
TL;DR: The anatomical, physico-chemical, mechanical, thermal and surface characteristics of Coccinia grandis fiber were studied for a potential substitute to the harmful synthetic fibers to reveal the presence of high strength xylem fibers.
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Comprehensive characterization of industrially discarded fruit fiber, Tamarindus indica L. as a potential eco-friendly bio-reinforcement for polymer composite
TL;DR: In this paper, tamarind fruit fiber is tested comprehensively for its potentiality as a reinforcement in unsaturated polyester matrix to optimize the mechanical properties, and the experimental results are verified and correlated with the Hirsch's and Series models.
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Characterization of industrial discarded fruit wastes (Tamarindus Indica L.) as potential alternate for man-made vitreous fiber in polymer composites
TL;DR: In this article, discarded and polluting agro waste from food processing industry, known as Tamarind Fruit Fiber (TFF) is tested for its potentiality as a reinforcement in polymer composite.
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Optimization of short Indian Areca fruit husk fiber (Areca catechu L.)–reinforced polymer composites for maximizing mechanical properties
TL;DR: In this paper, a comprehensive characterization of physical, chemical, thermal, mechanical, and microstructural properties was carried out on the fiber and the composite made with that fiber to optimize the fiber content.