Abstract:
This final report serves the purpose of demonstrating the advancements made in our final year project,
which focuses on investigating the impacts of environmental aging (hygrothermal and hydrothermal) on
synthetic-natural fiber-reinforced hybrid composites.
The rationale behind this research lies in its potential benefits across various sectors. By comprehensively
understanding how aging affects composite materials, we aim to inform choices that can lead to the
development of more durable, cost-effective, and environmentally sustainable materials.
Our choices within this study are guided by the need to balance scientific rigor with practical constraints.
We have embarked on this research with a commitment to explore the potential advantages of alternative
composite materials, such as glass, carbon, and basalt fibers considering financial constraints.
Additionally, while resource limitations have curtailed the number of iterations we can conduct, we remain
dedicated to enhancing the accuracy and reliability of our findings through meticulous experimental design.
Furthermore, we acknowledge the complexities of varying multiple variables concurrently but seek to gain
insights into material behaviour through strategic focus.
By addressing these challenges and making informed choices, our Final Year Project not only furthers our
understanding of composite materials but also paves the way for innovative solutions that can benefit
industries and society at large. This report highlights our commitment to progress, showcasing the potential
of our research to drive advancements in materials science.
