Abstract
This project involved in the study of notched strength reduction and determination of damage zone, ao, of E-glass, Kevlar and Carbon Fiber/Epoxy composite laminates. The specimen configuration used for this project was 101.6 mmxtol.6 mm with 30 mm diameter central hole and was subjected to bi-axial loading condition using a special grip and fixture. The damage zones, ao was determined experimentally using optical microscope. Using the values ao, the notched strength of the laminates were then determined using both Average Stress Criterion (ASC) and the Fracture Mechanics Criterion (FMC). These calculated values of notched strengths were then compared with that determined through experimentation. In this project, the results indicated that the notched strengths of the glass fiber/epoxy using the Average Stress Criterion and Fracture Mechanics Criterion are comparable. However, the notched strength predicted by the Fracture Mechanics Criterion was about 50% indifference with the Average Stress Criterion for Kevlar and carbon fiber/epoxy. This might be due to the determination of fracture toughness, Kc, using isotropic solution may not be suitable for these materials. Experimental values of the notched strengths of the laminates under bi-axial loading in the experiments cannot be acceptable due to the problems occurred at the grip. Further improvements are needed to overcome the grip problems or new fixture should be designed and constructed in order to obtain better results in the future.
Metadata
Item Type: | Thesis (Degree) |
---|---|
Creators: | Creators Email / ID Num. Shapie, Shazli Azrin 2002241993 |
Contributors: | Contribution Name Email / ID Num. Thesis advisor Md Taib, Yakub UNSPECIFIED |
Subjects: | T Technology > TA Engineering. Civil engineering > Materials of engineering and construction > Polymers. Polymeric composites |
Divisions: | Universiti Teknologi MARA, Shah Alam > Faculty of Mechanical Engineering |
Programme: | Bachelor of Engineering (Hons) (Mechanical) |
Keywords: | Notched strength reduction, bi-axial loading, fibers |
Date: | 2005 |
URI: | https://ir.uitm.edu.my/id/eprint/76925 |
Download
76925.pdf
Download (147kB)