What are the responsibilities and job description for the Engineering Intern position at Rivanna Medical, Inc.?
Job Description
Job Description
Description :
RIVANNA is seeking a talented and motivated intern to contribute to the rapid growth of our emerging medical device company. As an Engineering Intern, you will work with a team of professionals as we strive to achieve our mission of improving global human health. This hands-on multidisciplinary role involves collaboration with our mechanical and electrical engineering team for various product development tasks and projects.
Responsibilities :
- Manage 3D printer operation, including coordinating print requests, setting up prints, post-processing, and troubleshooting
- Execute product and component testing, documenting results and identifying areas for improvement
- Assist with the design, fabrication, and assembly of test fixtures and manufacturing jigs
- Assist with assembling components according to established procedures and specifications
- Perform soldering tasks for electromechanical assemblies
- Attend engineering team meetings and report on project progress and completion
- Collaborate with members of various departments to support product development and manufacturing efforts
- Contribute to a safe and organized work environment by following established safety procedures and keeping the lab and machine shop areas clean and organized
- Perform other job-related duties and responsibilities as assigned
Requirements :
About the Company
RIVANNA® is a privately held designer, manufacturer, and distributor of world-first, imaging-based medical solutions based in Charlottesville, VA. RIVANNA operates an FDA-registered and ISO 13485 : 2016 certified manufacturing facility where it produces the Accuro® product line and related medical equipment and components. Accuro is the world's ?rst spinal navigation device designed to improve the safety, speed and efficiency of spinal needle guidance procedures. RIVANNA's revolutionary platforms feature BoneEnhance®, Multi-Frequency Image Reconstruction, which optimizes ultrasound for the visualization of bony versus soft tissue anatomy, and SpineNav3D™ AI-Based Spine Recognition, which automates ultrasound image interpretation.