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 ...

Propel your career forward with an accredited graduate certificate. The demand for manufacturing engineers and engineering managers is as high volume as the curriculum and training programs being ...

There are compelling reasons why educational institutions should invest in their manufacturing curricula. Gaining a basic understanding of manufacturing practices can: Make all engineering students, ...

Engineering Accreditation Commission of ABET (EAC) Criterion 2 states that each engineering program for which an institution seeks accreditation or reaccreditation must have published program ...

Modern manufacturing is transforming industries around the world. Prepare to join a new generation of innovators and leaders driving manufacturing’s future — across fields spa ...

Whether the discussion is about smart manufacturing or digital transformation, one of the biggest conversations in the semiconductor industry today centers on the tremendous amount of data fabs ...

Explore the core differences between Chemical Engineering and Process Engineering. Learn about their unique roles in R&D vs. production, their technical focus areas, and the diverse career paths ...

Collecting and combining diverse data types from different manufacturing processes can play a significant role in improving semiconductor yield, quality, and reliability, but making that happen ...

Smart manufacturing is a term used to describe a connected and seamless flow of intellectual property (IP) to all teams involved, from design to manufacturing. It connects designs and data in a ...