© 2021 JETIR July 2021, Volume 8, Issue 7 www.jetir.org (ISSN-2349-5162) JETIR2107631 Journal of Emerging Technologies and Innovative Research (JETIR) www.jetir.org f1 An Ample survey on Characterization and Analysis on Nano-Hybrid Composite Structures 1 T. Malyadri , 2 Dr. J. Suresh Kumar 1 Research Scholar,Department Mechanical Engineering, Jawaharlal Nehru Technological University (JNTU), Hyderabad- 500085, Telangana. India 2 Professor,Department Mechanical Engineering, Jawaharlal Nehru Technological University (JNTU), Hyderabad - 500085, Telangana. India Abstract : Material requirements are highly personalized due to customized products. Resale values almost scrap rate due to lack of standard products. Even a cell phone cover does not available in the market after a period. Use and throw kind products are widely accepted recently by society, and they are produced large in quantity and push into the market. Such use and throw products are live in the market with many competitors. In this situation, reliability and durability are essential factors for the customer's choice in buying the products. The cost-effective, durable material can be developed by utilizing waste materials, natural fibers, etc., to meet such requirements and satisfy the customers' needs is the core concept of this investigation. The contribution of nanotechnology in improving the conventional composite and produce the new material or alter the properties as per our requirement the nanocomposites are highly supportive. This paper focuses on such feasibility studies to meet the material needs today. This comprehensive survey analyzed the feasibilities in various aspects like characterization, structures, mechanisms, materials compatibility etc. this investigation focuses on how material properties are augmented by utilizing nanotechnology. Keywords: Nanocomposite, Natural fibers, Characterization, Mechanical Properties, Microstructural Characterization. 1. INTRODUCTION The Polymer Composite applications are broad, and their scope and role are very vast. The performance and characters are decided by the inherent specialties of fiber, filer, matrix, hybrid fiber and method of synthesizing etc., and interfacial reaction or bonding among the materials. Hence it is clear that the performance of a polymer composite depends not only on the selection of its components but also on the interface between them. Nowadays, materials are designed to meet specific requirements, so the matrix to be often modified with appropriate filler and reinforcement. The use of natural fibers is utilizing the waste and unused natural resources. Nowadays, engineering proves that all five natural elements can be utilized to fabricate new materials. The philosophy is that what we see around us in nature is made up of various combinations of five elements in various proportions. So the natural fibers and natural materials can be utilized to create new materials for meeting the specific requirements. The available synthetic fibers are also employed in the creation of new materials. Figure 1 explores the fibers which are majorly contributing to the polymer composite. The natural fibers are classified as bio fiber (animal fiber), Lignocelluloses/celluloses, and mineral fibers. Synthetic fibers are classified as organic and inorganic types.