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.
Inside an electronics factory in China as late as early 2019, workers and smart machines were building circuit boards with chips in a multi-step process using a variety of machines from different vendors.
Although the first iteration of 5G technology has offered limited use cases in manufacturing, the next two generations, now expected to be available in the fall of this year and then the fall of next year because of COVID-19-related delays, will help factory owners achieve greater digital transformation of their factories.
Respondents in a survey said supply chain planning drives better business performance.
Dedicated in-house labs create and optimize laser welding processes for electric motors and batteries.
Like most of the digital architecture of manufacturing, computer numerical controllers (CNCs) have advanced rapidly in recent years, producing far more processing speed and implementing advanced algorithms, while at the same time offering simpler, more intuitive user interfaces.
The measuring and inspection arm of Japanese camera giant Nikon, Nikon Metrology, debuts APDIS, a Laser Radar inspection system the company claims is up to 10 times faster than conventional measurement tools, saving production lines time and money.
Siemens and Ingersoll Machine Tools said they have expanded a digital enterprise partnership.
Mazak Optonics has confirmed expansion plans for its North American headquarters in Illinois.
While recent advancements in machining centers have allowed for increased capability around high-volume operations, there are several factors that still necessitate the need for grinding.
