Electronics design engineers spend substantial effort on schematics, simulation, and layout. Yet, a component’s long-term success also depends on how well its physical form aligns with downstream ...

The Department of Mechanical and Manufacturing Engineering offers to its students a wide range of contemporary facilities. Undergraduate instruction takes place in Garland Hall’s numerous laboratories ...

WEST LAFAYETTE, Ind. — Additive manufacturing — commonly known as 3D printing — has become a staple area of study across engineering disciplines because of its potential to revolutionize the design ...

Additive manufacturing (AM) has emerged as a revolutionary approach to fabricating complex geometries with unprecedented customisation and design freedom. By building structures layer‐by‐layer, AM ...

Manufacturing has the largest economic multiplier effect of all industries, integrating both ideas and technologies across multiple disciplines, and aiming for the creation of processes and systems ...

Use of computers to improve productivity and reduce cost in manufacture of discrete parts and assemblies. Manufacturing processes: analysis and evaluation of processes usage of the contemporary ...

Strategies and methods of designing, manufacturing, and testing of mechanical products. Engineering drawing and CAD, design methods, material properties, failure modes, selection methodology, ...

Solve problems in manufacturing and machinery. Manufacturing and Mechanical Engineering Technology has dedicated computing and laboratory facilities in the Electrical Energy Resources Center as well ...

Mechanical and Manufacturing Engineering (MME) students dive into how things are designed, made, and improved in the real world—learning to create smarter products, automate advanced manufacturing ...

Michigan Tech's advanced degree programs in Manufacturing Engineering meet industry needs and further your expertise in the field. Be equipped to continue accelerating the growth of innovative ...