About this Abstract |
| Meeting |
MS&T24: Materials Science & Technology
|
| Symposium
|
Additive Manufacturing: Design, Materials, Manufacturing, Challenges and Applications
|
| Presentation Title |
A-4: Enhancing Mechanical Resilience of SLA Printed Parts in Load-Bearing Applications |
| Author(s) |
Armaghan Hashemi Monfared, Fariborz Tavangarian, Niloofar Fani, Sorour Sadeghzade |
| On-Site Speaker (Planned) |
Armaghan Hashemi Monfared |
| Abstract Scope |
This study investigates the optimization of 3D printed spicule-like structures for enhanced mechanical properties, specifically targeting load-bearing biomedical applications. Through a comprehensive exploration of design parameters and post-processing techniques, the research elucidates the significant impact of specific printing parameters on the structural integrity and performance of these biomimetic structures. Results demonstrate notable improvements in strength, rigidity, and resilience, underscoring the potential of tailored fabrication methods to meet the demanding requirements of load-bearing implants. Engineered to withstand substantial loads, these structures offer promising solutions for supporting large bone implants effectively. This investigation represents a significant advancement in biomimetic material development, paving the way for innovative solutions in the field of biomedical engineering. By refining the fabrication process and optimizing design parameters, this study contributes to the ongoing quest for biomimetic materials with superior mechanical properties and expanded applications in load-bearing biomedical devices. |