Undertaking the design and testing of personalized condylar mandible fracture plates illuminated my proficiency in Computer-Aided Design (CAD) software, particularly SolidWorks. The project involved intricate design processes, such as replicating mandibular models and incorporating functional grading concepts. This hands-on experience not only showcased my technical skills but also demonstrated the practical application of modeling tools crucial for biomedical engineering applications.
The project's emphasis on mechanical testing, including unit cell compression and shear stress tests, provided invaluable insights into the complexities of material behavior under different loading scenarios. Analyzing stress, strain, and displacement data from simulations developed my analytical mindset, a critical skill in the field of biomedical engineering.
The incorporation of 3D printing for physical prototyping highlighted my ability to translate virtual designs into tangible prototypes. This hands-on experience not only showcased practical skills in additive manufacturing technologies but also underscored my awareness of the limitations and capabilities of the technology.
The discussion and analysis phase of the project revealed my capacity for critical thinking. Addressing the trade-offs between porosity, stress distribution, and rigidity in bone plate design demonstrated my ability to approach complex problems with a holistic perspective. This analytical approach is crucial in making informed decisions in the field of biomedical engineering.
Acknowledging the limitations of the SolidWorks simulation and proposing future research directions highlighted a forward-thinking approach. This commitment to continuous improvement and a proactive stance toward overcoming challenges adds depth to my skill set and aligns with the dynamic nature of biomedical engineering.
The collaborative nature of the project, evident in the acknowledgment of Dr. Javad Tavakoli as the project supervisor, underscores my ability to work effectively within a team and seek guidance when necessary. This collaborative spirit is vital in the dynamic and interdisciplinary field of biomedical engineering.
In summary, this project has not only honed technical skills in CAD, simulation, and 3D printing but also nurtured a mindset for critical analysis, problem-solving, and collaborative work. These skills, coupled with a strong foundation in biomedical engineering principles, position me as a well-rounded candidate with the versatility needed to excel in a biomedical engineering position.
