California Polytechnic State University’s (Cal Poly) Industrial and Manufacturing Engineering (IME) Department is ensuring its students are prepared for the future of fabrication by integrating abrasive waterjet into its curriculum.
A single phone call changed my life forever. In 2003, I was sitting in my office at a fuel cell manufacturing company where I was vice president of operations. A voice on the other end of the line said, “Hello, my name is Mark Tomlinson. I’m calling as a representative of the SME Manufacturing Enterprise Council.”
Nobody knows just yet how the auto industry will adopt 3D printing. But Desktop Metal Inc. (Burlington, MA) is in a better position than most to make an educated guess.
The energy industry is often at the forefront of our minds as we watch fuel prices climb and then celebrate when they come down. We continually find ways to be as energy efficient as possible in our homes and workplaces. Media outlets keep us constantly informed of this often-volatile industry’s ups and downs.
In the manufacturing industry, the importance of metrology, or the science of measurement, is often underestimated. However, inspection is critical for ensuring products work and operate safely.
The world is undergoing some radical transformations related to the concept of “motorized transport.” This term was once synonymous with the automobile and the internal combustion engine, along with the conventional infrastructure supporting this technology like asphalt roads, filling stations and repair shops.
While laser marking and engraving are well-established processes, innovations and investments in the sector are continuing to push performance boundaries.
From producing lithium-ion batteries to processing sheetmetal, new laser welding systems are “pushing the envelope” of light absorption, beam control, speed and programming flexibility.
Fluence Analytics (formerly Advanced Polymer Monitoring Technologies), a manufacturer of smart industrial and laboratory monitoring systems, recently released the third generation of its ACOMP, an automated system that performs continuous, real-time monitoring and characterization of polymers for 3D printing and other uses during manufacturing and post-processing.
Oerlikon and Boeing to create standard processes for 3D-printed structural titanium aerospace. Five-year agreement supports creation of standard titanium additive manufacturing processes. Boeing has 50,000+ 3D-printed parts on commercial, space and defense products flying today.
