The IRMA Community
Newsletters
Research IRM
Click a keyword to search titles using our InfoSci-OnDemand powered search:
|
Effect of Bamboo Hybridization and Staking Sequence on Mechanical Behavior of Bamboo-Glass Hybrid Composite
|
|
Author(s): Piyush P. Gohil (The M. S. University of Baroda, India), Kundan Patel (CHARUSAT, India), Vijaykumar Chaudhary (CHARUSAT, India)and Ronak Ramjiyani (CHARUSAT, India)
Copyright: 2016
Pages: 20
Source title:
Green Approaches to Biocomposite Materials Science and Engineering
Source Author(s)/Editor(s): Deepak Verma (Graphic Era Hill University, Dehradun, India), Siddharth Jain (College of Engineering Roorkee, India and University of Alberta, Canada), Xiaolei Zhang (Queens University, Belfast, UK)and Prakash Chandra Gope (College of Technology, G.B.Pant University of Agriculure and Technology, Pantnagar, India)
DOI: 10.4018/978-1-5225-0424-5.ch004
Purchase
|
Abstract
The advancement of polymer composites containing natural fibers as a manageable option material for certain designing applications, especially aviation and car applications, is a well-known area of investigation. Nevertheless, the high mechanical properties connected with synthetic fibers they are awesome and lavish contrasted with natural fibers. The utilization of natural plant fibers and mixes of natural and synthetic fibers for making ease building materials has produced much interest recently. In the present work, bamboo–glass hybrid polyester composites were produced and their mechanical properties like elasticity and flexural quality were assessed for different weight fraction and distinctive stacking sequence. The outcomes observed that bamboo–glass mixture composites offered the benefits of both natural and synthetic fibers. It is also observed that hybridization started a material with general intermediate properties between pure glass and pure bamboo. However, the significance of controlling the stacking grouping to upgrade properties was evident.
Related Content
|
Dipan Kumar Das, Padmaja Patnaik, Sudip Kumar Das, Nibedita Nayak.
© 2026.
28 pages.
|
|
Aditya Shrivastav, Sunil Sankathala, Kashvi Chaturvedi, Susanta Das.
© 2026.
18 pages.
|
|
Amruta Prasann Walvekar, Rutuja Vijay Kamble, Tejal Nikhil Bele, Pallavi Singh Chouhan, Shraddha Devarshi.
© 2026.
44 pages.
|
|
Pallavi Singh Chouhan, Amruta Prasann Walvekar, Shraddha Prakash Devarshi, Tejal Nikhil Bele, Rutuja Vijay Kamble.
© 2026.
32 pages.
|
|
M Amin Mir, Eskilla Venkata Ramana, Syed M. Hasnain, Maythem Mahmoud, Kim Andrews.
© 2026.
24 pages.
|
|
Muhammad Waqar Ashraf, Mohammad Amin Mir, Syed M. Hasnain, Kim Andrews.
© 2026.
30 pages.
|
|
Harshit Gouri.
© 2026.
30 pages.
|
|
|