Effect of Graphene Nanoplatelets and Accelerated Weathering on the Mechanical and Shape Memory Behaviour of 3D Printed Components

Mohamad Alsaadi; Eoin P. Hinchy; Conor T. Mccarthy; Declan M. Devine

doi:10.55549/epstem.1519155

Conference Paper

Year 2024, , 47 - 55, 01.08.2024

Mohamad Alsaadi Eoin P. Hinchy Conor T. Mccarthy Declan M. Devine

https://doi.org/10.55549/epstem.1519155

Abstract

References

Alsaadi, M., Hinchy, E.P., McCarthy, C. T., & Devine, D. M. (2024). Effect of graphene nanoplatelets and accelerated weathering on the mechanical and shape memory behaviour of 3D printed components. The Eurasia Proceedings of Science, Technology, Engineering & Mathematics (EPSTEM), 28, 47-55.

Effect of Graphene Nanoplatelets and Accelerated Weathering on the Mechanical and Shape Memory Behaviour of 3D Printed Components

Year 2024, , 47 - 55, 01.08.2024

Mohamad Alsaadi Eoin P. Hinchy Conor T. Mccarthy Declan M. Devine

https://doi.org/10.55549/epstem.1519155

Abstract

The need for sustainable materials has increased the adoption of 3D printing techniques in various applications due to their valuable advantages of obtaining complex design, fast site production, with significantly less waste, and thus more cost-effective, compared to traditional polymer processing techniques like moulding and extrusion. The objective of this work is to investigate the effect of functionalised graphene nanoplatelets and accelerated weathering ageing on the tensile, Izod impact, fracture toughness and shape memory behaviour of 3D printed methacrylate-based resin. The accelerated weathering aging of 1000 hrs was conducted on the 3D printed samples. The fracture toughness results in terms of critical stress intensity factor were calculated using single-edge notch bending (SENB) tests. The shape memory (SM) behaviour in terms of shape fixity and shape recovery results were determined using dynamic mechanical analysis (DMA). The results showed good resistance to weathering ageing and enhancement by incorporating functionalised graphene nanoplatelets. The maximum increment values of the tensile strength, impact resistance and critical stress intensity factor were 18%, 25% and 16%, respectively. The glass transition temperature values were slightly increased. The shape fixity ratios and the shape recovery ratios were greater than 97% and 90%, respectively. This study provides new knowledge in expanding and developing 4DPg in various industrial applications like in soft robotics as actuators and thermal sensors.

Keywords

3D printing, Graphene nanoplatelets, Accelerated weathering

References

Alsaadi, M., Hinchy, E.P., McCarthy, C. T., & Devine, D. M. (2024). Effect of graphene nanoplatelets and accelerated weathering on the mechanical and shape memory behaviour of 3D printed components. The Eurasia Proceedings of Science, Technology, Engineering & Mathematics (EPSTEM), 28, 47-55.

There are 1 citations in total.

Details

Primary Language	English
Subjects	Software Engineering (Other)
Journal Section	Articles
Authors	Mohamad Alsaadi Eoin P. Hinchy Conor T. Mccarthy Declan M. Devine
Early Pub Date	July 20, 2024
Publication Date	August 1, 2024
Submission Date	January 21, 2024
Acceptance Date	April 9, 2024
Published in Issue	Year 2024

Cite

APA	Alsaadi, M., Hinchy, E. P., Mccarthy, C. T., Devine, D. M. (2024). Effect of Graphene Nanoplatelets and Accelerated Weathering on the Mechanical and Shape Memory Behaviour of 3D Printed Components. The Eurasia Proceedings of Science Technology Engineering and Mathematics, 28, 47-55. https://doi.org/10.55549/epstem.1519155