Additive Manufacturing: From 3D Printing to the Factory Floor

This fast-paced three-day course at MIT provides learners with a comprehensive understanding of additive manufacturing, its applications, and its implications both now and in the future. The course includes:

• Technically rich lectures encompassing: AM process fundamentals, material properties, design rules, qualification methods, cost and value analysis, and industrial and consumer applications of AM.  
• Hands-on lab activities involving both desktop and industrial-grade 3D printers for polymers and metals, addressing the full workflow from design to characterization.
• An interactive, team-based case study. Students choose to participate in a design competition (using generative design software and 3D printing), to solve a strategy challenge using AM, or to propose a new AM-enabled business endeavor.
• Visits to local AM startups and an on-demand digital manufacturing facility.
• A multidisciplinary team of speakers including MIT faculty, industry experts, and special guests.
• Structured networking activities at several points throughout the week.

Pre-course Online Material

Prior to the course, registrants will be provided approximately two hours of video content and other multi-modal content, covering the following subjects:

• Introduction to AM Terminology
• Overview of Industrial AM Technologies for Polymers, Metals, and other Materials
• Application Case Studies for Prototyping and Production Uses of AM
• Interactive graphics on system and material performance

The curriculum suits both beginners and experts in AM, and emphasizes both breadth and rigor.  If you have questions, or would like to understand how this course might suit your interests, please contact Prof. John Hart (ajhart@mit.edu) or Haden Quinlan (hquinlan@mit.edu).

Certificate of Completion from MIT Professional Education

Learn the fundamentals of additive manufacturing (AM) of metals, polymers, composites, and ceramics, along with those for emerging materials and structures (e.g., electronics, biological tissues).

• Understand the operating principles, capabilities, and limitations of state-of-the-art AM methods, including laser powder bed fusion, fused deposition modeling, stereolithography, and material jetting.
• Become familiar with the complete workflow of AM, including computational design, toolpath generation, build preparation, and characterization.
• Compare and contrast the capabilities of AM with conventional manufacturing methods such as machining and molding in terms of rate, quality, cost, and flexibility.
• Gain hands-on experience with state-of-the-art AM machines.
• Study applications of AM across industries, including aviation/space, medical devices, automotive, energy, electronics, and consumer products.
• Via examples and case studies, understand how to quantitatively assess the technical and economic suitability of AM for an application, and project future trends.
• Place AM in the context of the digital manufacturing infrastructure, including advances in robotics, machine learning, and data science.

Links & Resources

• Building the tools of the next manufacturing revolution. MIT News, June 17, 2019.
• New 3-D printer is 10 times faster than commercial counterparts: New design may open opportunities for 3-D-printing technology. MIT News, November 29 2017
• MIT additive manufacturing expert discusses the future of AM and a new comprehensive training course. Fastener news, April 17, 2017
• 3-D printing with cellulose: World’s most abundant polymer could rival petroleum-based plastics as source of printing feedstock. MIT News, March 3, 2017
• 3-D Printing 101: As MIT course challenges students to reinvent 3-D printing, professor aims to share approach with others. MIT News, May 11, 2016

This course will be useful to design engineers, manufacturing engineers, product designers, research engineers, research scientists, managers, VPs of product development and manufacturing, and technology and innovation strategists. The course material is accessible for those new to AM, yet highly comprehensive and valuable for those who already have significant experience with AM.

Requirements

Laptops or tablets are encouraged for this course.