Creating precision components by removing material using Computer Numerical Control (CNC) and manual machine tools to perform processes such as milling, turning, grinding, sawing, and Electrical Discharge Machining (EDM)
Designing, deploying, repairing, or operating robotics systems to automate industrial processes and applications
Process of putting together various components to create finished products
Continuous or batch production of goods like food, pharmaceuticals, materials, chemicals, and fuels
Fabrication of products or structures by processes that join materials, usually metals, by melting the base material and often adding a filler material that coalesce and cool to form a strong joint between components
Performing value-added processes on parts, components, or materials using equipment and/or hand tools
The process of modifying or enhancing the surface of metal parts or materials to achieve desired properties or characteristics, such as improved appearance, corrosion resistance, hardness, or smoothness
Quantifying the size and shape of components using precision dimensional measuring and test equipment to ensure products meet design specifications
Maintaining, troubleshooting, and repairing industrial equipment including mechanical, electrical, electronic, fluid power, and process control systems ubiquitous in manufacturing and processing industries
Integration of advanced technologies to revolutionize how companies operate, manufacture, improve, and distribute their products
Also known as 3-D printing, these technologies involve creating three-dimensional components by incrementally adding material, layer by layer, for the precise construction of complex objects directly from digital designs
Creating metal components without removing material using machines and tooling to perform processes such as shearing, stamping, bending, punching, rolling, and spinning to shape metal into durable and uniform components
