As broad-based adoption of wearable tech grows, it is not a stretch to think that in a few years we will have enough predictive data to dramatically reduce workplace injuries and fatalities.
Reverse engineering is becoming multifaceted and complex. The key drivers: new metrology sensors and more capable software, enabled by ever more powerful and cheaper computing.
The COVID-19 pandemic clearly proved challenging to the manufacturing industry in myriad ways. Now, as nations and industries begin to navigate their way forward as restrictions are lifted, manufacturers have an opportunity to put into practice some lessons learned.
Artificial Intelligence combined with endless cloud computing resources means more machine involvement and a faster progression to end-to-end automation for manufacturing plants.
Feature-based Product Line Engineering refers to the engineering of a portfolio of related products using a shared set of engineering assets, a managed set of features, and an automated means of production.
With today’s increasing demands on manufacturing, there is a need to combine the latest in tooling solutions and apply those latest tools with optimized G code.
Teenaged Jamie Yelle daydreamed as he pushed a broom across the floor of his father’s machine shop. As he cleared a path through aluminum chips, filings, and scraps of metal around the machinery, he imagined what the company would look like if he were at the helm.
Success in aerospace machining requires more than the ability to hold tight tolerances in difficult materials. It also requires the ability to prove that you did so in compliance with a pile of specific guidelines, with reports that likewise must follow a specific format.
There are parallels in how industry and healthcare adapt to digital technology—and some interesting differences.
Nikel Precision Group also implemented solutions that optimize tool performance to improve quality, as well as production intelligence that provides real-time insights into factory performance.
