February 3-7, 2024
Boston Convention and Exhibition Center
Boston, MA, USA
February 3-7, 2024
Boston Convention and Exhibition Center
Boston, MA, USA
The availability of low-cost, high-quality 3D printers has led to the rapid adoption of 3D printing by practitioners in numerous fields, including life sciences. Printing technologies and materials have expanded beyond those involving polymers and metals to include paper, cells and other biological materials, enabling many new and unexpected applications.
This course will cover the process of creating 3D-printed objects with an emphasis on applications in the life sciences using Fusion Deposition Modeling (FDM) printers. Attendees will survey state-of-the-art 3D printing and discuss the practical considerations of creating their own objects, from initial conception to physical reality. Several techniques for generating 3D models will be demonstrated and attendees will discuss how to optimize models for printing, compare printing techniques and material options and generate 3D models using publicly available software on their personal computers. Live demonstrations and hands-on time using 3D printers will be featured throughout the course.
Scientists, engineers, and technologists who:
Mykle Gaynor
Dascena, Inc.
Mykle Gaynor is a technology entrepreneur, avid reader and lifetime learner who loves working with interesting people to develop things that help improve people's lives. Gaynor has been working in the lab automation field for 20 years, where he focuses on process optimization and leveraging technology to solve difficult problems. He has a great deal of experience founding and working with companies that use 3D printing and rapid prototyping to address unmet technical needs.
Sayeed Andesmand
Seer, Inc.
Sayeed Andesmand has a B.S. and M.S. in mechanical engineering with a background in high-volume manufacturing and has spent the last 10 years focused on R&D medical product design. Using his experience in injection mold design he has been able to close the design for the manufacturing and assembly loop before a design is even seen by a contract manufacturer. To speed up the product design cycle, Andesmand has used a variety of 3D printing technologies and materials, including Polyjet, FDM, SLAs and carbon fiber printing.