Like many technologies in manufacturing and fabrication today, welding operations have evolved to be more automated, flexible, adaptive, and “smarter” for improved throughput, safety and deposition accuracy.
As we enter Industry 4.0, the lines continue to blur between the digital and the physical. With this, the workplace is rapidly changing at every level in every industry.
Dedicated in-house labs create and optimize laser welding processes for electric motors and batteries.
Amid predictions of global economic slowdowns and several recent PMI readings indicating manufacturing contraction, it becomes easy to see how slow production performance and data inefficiencies throughout the manufacturing supply chain contribute to economic uncertainty and concerns for future business.
Marposs, announced on March 24 the availability of its Aeroel MecLab.X laser micrometer systems. These provide diameter measurements for components such as electric motor shafts, gage or piston pins, hydraulic components or any number of ground or turned parts.
In a few short years, the Center for Manufacturing and Metrology at the University of Hartford has become a leading national provider of education, training and research in measuring technology for manufacturing.
Imagine you wrote a masterpiece of literary fiction or a detailed plan for financial success. You can’t wait to share your work with the world. But there’s a problem. In this universe, in this reality, computers have no way to share documents with each other.
Metrology equipment is showing its usefulness on the shop floor. Lasers and structured-light scanners operate next to assembly jigs and press-brakes.
Everyone knows that today a ton of data captured on the manufacturing floor goes unused due to the lack of a data scientist on staff or other resources to comb through all the information.
As manufacturing marches forward into the digital era, a growing ecosystem of standards is laying the foundation for a new generation of data management.
