Advanced Manufacturing

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Reinventing U.S. manufacturing for resilience and scale

From the Midwest’s high-tech hub and the nation’s industrial heart, University of Michigan Engineering is leading research, education and industry collaboration to reinvent how America designs, makes and scales advanced technologies.

We’re working to deliver on the promise of Industry 4.0, develop partnerships to advance Industry 5.0, and pioneer efforts to define Industry 6.0 and beyond. Our efforts align with nonpartisan priorities to develop resilient supply chains, strengthen national competitiveness and protect national security.

Top 5

Mechanical engineering (#5)

Robotics (only R1 with dedicated department)

Materials science (#5)
Industrial engineering (#2)
Biomedical engineering (#6)

Michigan Engineering’s unparalleled breadth and state-of-the-art facilities are part of an expansive manufacturing R&D and workforce ecosystem that bridges the gaps between design, lab-bench and industrial-scale. We have world-class expertise in mechanical, industrial, and biomedical engineering as well as robotics, materials science, naval architecture and more. Across campus, we collaborate with other leading U-M programs such as business and medicine. Our Battery Lab hosts the nation’s highest-capacity university-based pilot line. Through our new U-M Advanced Manufacturing Institute, we’re integrating these strengths to pioneer a modernized model for manufacturing innovation and impact. Through our new U-M Advanced Manufacturing Institute, we’re integrating these strengths to pioneer a modernized model for manufacturing innovation and impact.

Today we’re unlocking the potential of 3D printing with design-for-additive manufacturing approaches and new additive manufacturing process technologies. We’re deepening integration of AI, robotics and computational science to streamline smart factories and supply chains. We’re expanding human capabilities—honing ergonomics and human-autonomy systems as we work toward a ‘cognitive manufacturing’ future where specialized, adaptive AI teammates act as partners and can lead in decision making.

Jump to

250K students

trained through the LIFT Manufacturing USA institute U-M
co-founded in 2014.

The DOW manufacturing space, which features a warehouse with machinery and six people gathered around a table.

A hub for discovery, innovation and collaboration in manufacturing

$4.45M in lab upgrades includes tools for additive manufacturing, large-scale prototyping of new alloy development, a classroom and more.

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Technology for tomorrow’s smart manufacturing

Two men are reflected in the glass of the 3D printer, which is producing a plastic structure.

A man operates a KUKA robotic arm in a workshop.

Person in a bright orange jacket and goggles adjusting machinery in a lab.

Person operating a robotic arm using a computer in front of a seated students.

Human-autonomy teams

Developing efficient collaboration between humans and autonomous systems

A man operates a machine featuring a roller component that is processing a dark, copper-edged material in an industrial setting.

In the News

3D Printing Industry

October 21, 2025

AFRL, University of Michigan demonstrate vibration-blocking 3D-printed structures

MLive

August 28, 2025

See inside University of Michigan’s battery lab expansion

Metal AM

April 17, 2025

University of Michigan receives $10.3M DARPA grant to predict metal AM part longevity

Bridging the valley of death for manufacturing tech

The new U-M Advanced Manufacturing Institute (UMAMI) takes a unique approach to translational research. Learn more in a Q&A with Director Chinedum Okwudire.

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$4.45M

investment to revamp U-M’s open manufacturing research lab

A century of manufacturing leadership

The University of Michigan’s leadership in manufacturing stretches back more than a century. In 1921, U-M established the nation’s first Department of Production Engineering, founded by Orlan W. Boston. His early work helped lay the scientific foundations of modern manufacturing—from machining processes like turning and milling to pioneering research on metal machinability.

In the 1980s, the College launched the Center for Robotics and Integrated Manufacturing to help revitalize the state and nation’s industrial base. Bringing together six departments, the center united mathematics, control theory, and advanced statistics with manufacturing practice. Faculty including Yoram Koren, Sam Wu, and later Galip Ulsoy, Jack Hu and Jun Ni helped establish Michigan as a powerhouse in intelligent manufacturing systems. Their impact culminated in the NSF Engineering Research Center for Reconfigurable Manufacturing Systems—led by Koren— which transformed how engineers think about factory design and introduced modular, adaptable, scalable production lines.

University of Michigan Engineering’s influence in advanced manufacturing extends to national policy as well. Sridhar Kota played a central role in shaping U.S. advanced manufacturing strategy during his tenure at the White House Office of Science and Technology Policy (2009–2012). He helped launch the Advanced Manufacturing Partnership and was the driving force behind the creation of what became Manufacturing USA—a national network of institutes designed to bridge the gap between research and production and strengthen domestic supply chains. Michigan Engineers led by Alan Taub launched one of the Manufacturing USA institutes, Lightweight Innovations For Tomorrow (LIFT) in Detroit. Over the past decade, LIFT has grown to 340 member organizations and helped train 250,000 students, including adult learners.

40+ faculty

faculty in 7 departments working in manufacturing

In 2022, Michigan Engineering launched the first Robotics Department at a top-10 engineering school.