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 ...

Some engineers think of mechanical manufacturing as if it were the cousin who’s invited to the wedding reception, but not the ...

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

Electro-mechanical assembly is a pivotal process in modern manufacturing that integrates electrical and mechanical components into cohesive systems. This assembly plays a crucial role in creating ...

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 ...

Mechanical Engineering focuses on the analysis and design of products, machines, and mechanical systems. Students learn to apply math and science, model and simulate performance, test how systems ...

Manufacturing involves the conversion of raw materials, usually supplied in simple or shapeless forms, into finished products with specific shape, structure, and properties that fulfill given ...

Sheryl Grey is a freelance writer who specializes in creating content related to education, aging and senior living, and real estate. She is also a copywriter who helps businesses grow through expert ...

Additive manufacturing has matured into a versatile platform for the fabrication of complex metallic components, yet the attainment of wrought-equivalent microstructures and mechanical performance ...

Metal additive manufacturing provides remarkable flexibility in geometry and component design, but localized heating/cooling heterogeneity leads to spatial variations of as-built mechanical properties ...