Surprisingly, new industrial scanning technology has been widely used for years, but in a very different field; archaeologists have been making use of industrial x-ray inspection and scanning equipment for the better part of the last decade. Having the ability to use NDT, or nondestructive testing, in the context of historical excavations has enabled archaeologists around the world to better handle fragile historical materials.
While the term “NDT” can refer to a startlingly wide array of non-invasive industrial testing procedures, computed tomography specifically refers to penetrative x-ray inspection that allows archaeologists to better undertake delicate excavation and restoration projects. For more than a decade, archeology teams worldwide have relied upon x-ray computed tomography to study fossils, ancient mummies, bronze swords, and ancient pottery.
More recently, industrial scanning has begun to rely more frequently on non destructive testing, or NDT. Faced with increasing pressure from customers and shareholders to incorporate large-scale automated production methods, industrial companies must also upgrade and streamline their testing mechanisms and procedures.
Laser inspection equipment and x-ray inspection services can be more fully deployed once employee exposure to x-rays ceases to be an issue, and business owners are increasingly looking to robotics to deliver the newest winning edge. Instead of relying solely upon visual inspection and employee reporting of flaws and deficiencies, industrial entities are making use of more powerful robotic management software.
Of course, there are medical applications to computed tomography software; every year, developers increase the speed and complexity of CT scans and every year, feedback from industrial applications allows for the production of more relevant scanning tools. In the next decade, most industrial production facilities should prepare themselves for the large-scale introduction of digitally-controlled and maintained testing procedures.
Logically, ensuring better industrial outcomes is extremely important. Business leaders who are willing — and financially well-equipped — to embrace developing technology should find that upgrading testing and production equipment has a strong return on investment. Since robotic “workers” have the potential to create a production cycle with little, if any, downtime, facilities should make sure that their production does not outstrip demand.
The human factor will never completely be rendered obsolete; experienced managers and leaders of industry will always be required to program, monitor, and guide employees, no matter how sophisticated production eventually becomes. Finding success with computed tomography in the academic world has enabled its inventors a trusted position in large-scale industrial ventures the world over. The business world remains unguardedly optimistic, and for good reason.