Additive manufacturing (AM) refers to processes used to make a three-dimension object layer-by-layer. The shape of each layer can be dynamically controlled by computer-aided design (CAD).
What is smart manufacturing? Essentially, smart manufacturing is the practice of making information about manufacturing processes available when and where it is needed, in the form it is needed, so that smart decisions can be made about the course of critical business operations.
Automotive manufacturers and their Tier One suppliers spend endless engineering hours developing the PAB (passenger airbag) system, from the airbag and its propellant to the construction of the materials used in the composite instrument panel.
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.
Smart Manufacturing sat down with KIMBERLEY HAGERTY, Industry 4.0 digital manufacturing transformation manager at Pratt & Whitney, at the Westec conference in Los Angeles in September to hear about the progress her firm is making adopting smart manufacturing processes, solutions and strategies.
It’s said you don’t know where you’re going if you don’t know where you’ve been. For Industry 4.0 and advanced manufacturing, digital libraries provide that map.
Speed, safety and efficiency are important to running a successful manufacturing floor. The more efficient workers are on the floor, the quicker products can be finished and sent to their destination. The major opponent to efficiency on the floor is, of course, waste.
The devices quickly become less costly, sophisticated and independent, gaining wider influence.
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.