Optimization to release net zero emission in built environment from newly developed natural fiber–hybrid composite

Author:

Amuthan Tamilselvan1ORCID,Nagaprasad Nagaraj2ORCID,Somurajan Vijayan3ORCID,Gupta Nakul4ORCID,Kumar Ramakrishnan Kulasekaran Sathish5ORCID,Krishnaraj Ramaswamy67ORCID,Raj Vijilius Helena8ORCID,Srinivas R.9ORCID,Saxena Kuldeep K.10ORCID,Deshmukh Sujata11ORCID

Affiliation:

1. Department of Mechanical Engineering, Velammal College of Engineering and Technology, Madurai-625 009, Tamil Nadu, India

2. Department of Mechanical Engineering, ULTRA College of Engineering and Technology, Madurai-625 107, Tamil Nadu, India

3. Department of Mechanical Engineering, Government Polytechnic College, Baisuhalli, Dharmapuri, Tamil Nadu, India

4. Department of Civil Engineering, GLA University, Mathura, UP, India

5. Department of Mechanical Engineering, Vinayaka Mission’s Research Foundation (Deemed to be University) Salem-636 308, Tamil Nadu, India

6. Centre for Excellence-Indigenous Knowledge, Innovative Technology Transfer, and Entrepreneurship, Dambi Dollo University, Ethiopia

7. Department of Mechanical Engineering, Dambi Dollo University, Ethiopia

8. Department of Applied Sciences, New Horizon College of Engineering, Bangalore, India

9. Department of Mechanical Engineering, Institute of Aeronautical Engineering, Hyderabad, Telangana, India

10. School of Mechanical Engineering, Lovely Professional University, Phagwara, India

11. Department of Computer Engineering, Fr. Conceicao Rodrigues College of Engineering, Bandra, Mumbai-400 050, Maharashtra, India

Abstract

This article focuses on investigating the dynamic behavior of hybrid composites involving natural fibers. The objective of this study is to examine and evaluate the effectiveness of recently used hybrid composite materials. The primary materials utilized are glass fiber-reinforced plastic. Plastic is applied to the surface of fiber-reinforced epoxy composites. Natural fibers are also used in other materials, polyester-based hybrid composites. The breakage pressure of the double shear test in the first composition has been improved from 1.10 to 1.38[Formula: see text]kN. The hardness rating was enhanced from 76.15 to 87.99. The interlamination experimental findings improved from 7.96 to 8.52[Formula: see text]kN. The results showed that a hybrid with a 50:50 comparable strand ratio of glass and sisal outscored a hybrid with a small fraction of sisal fiber. The second composite describes the effects of natural filler loading at 5%, 10%, and 15% on the mechanical behavior of a polyester-based hybrid. Materials created in a reputable environment for automotive and marine applications. Both hybrid nanocomposite preparation methods are tested, and the findings are validated. The electrical and mechanical characteristics of the materials are also validated and demonstrated to be superior to other current composites. This study highlights composite materials and technological advances and discusses natural fibers’ rich history and promise in many applications.

Publisher

World Scientific Pub Co Pte Ltd

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