The temperature of earth has to accrue
The temperature of earth has to accrue, and the emergent alertness on go green activities has started the research activities towards degradable products. The rules and regulations of various countries and the consumer responsiveness on eco-friendly products also accentuate the necessity of producing recyclable and bio-degradable composite materials.
Fibers are available in particle and long constant length filaments or discrete extended pieces. Fibers have classified into two major categories; they are Nature fibers and synthetic or artificial fibers. Natural fibers own the advantage of eco-friendliness, inferior in density, high specific strength, biodegradability, and cost-efficiency.
Wambua et al. [1] have expressed that natural fiber composites have concerned about improving their renewability, recyclability, and high mechanical properties.
Gassan and Bledzki [2] have used coupling methods to expand the properties of composites. Composites have absorbed extreme levels of moisture, poor wettability, and the inadequate bond between unprocessed fibers and the polymer matrix leads to debonding with an agent. The natural fibers have altered the coupling methods due to enhance the properties of the composites. The coupling agents have chemical sets of groups that can react with fiber or polymer and thus improve the interfacial adhesion. Thakur et al. [3] have reported that natural fibers in polymer matrix composites have been din creasing for developing low-cost, eco-friendly products for the need of sparse density and high specific properties of these natural fibers. Li et al. [4] have studied the plant fiber for its micro level, mechanical properties, and the results shown that these fibers have a graded cell structure that consisted of a crucial wall, a secondary wall, a fiber lumen, and middle lamellae.