As the energy was deflected, or made it through the material all of that heat and energy would make its way into openings in all of these devices. Inside of those devices we could put small spinning wheels, and then use that energy once again, rather than wasting it. We could use that energy to power up the laser itself, the robotic arm, and perhaps the assembly line mechanism. By recapturing and reusing we would indeed be one with the theory and methodology behind Six Sigma manufacturing strategies.
Think about the current industrial revolution. Before the invention of the automobile, buggy whip manufacturing was a thriving business. No longer. In the same vein, industrial robots hold the promise of eliminating many of the existing jobs in manufacturing. Innovation, centers of excellence. New enterprises promise to replace many of the existing jobs. People need to be flexible, to develop new industries.
When processes or work applications are changedComputer Technology Articles, only one Robot needs to be retrained and all other Robots immediately learn the same new process.
The idea of bringing back manufacturing jobs to have people, not robots, perform specific tasks to complete production would have a significant impact on the current state of the worldwide economy. The day and age of having only people perform automated jobs is over and Donald J. Trump will fail to bring back what he promised. This transition won’t appear to be cost-effective, the required high-tech relevant training will be scarce, and the worldwide economy would have less incentive to globalize.
Manufacturing degree (or a degree in mechanical, electrical or chemical engineering). Knowledge of Quality systems, such as Six Sigma, ISO 9001, TQM, Kaizen, etc. Manufacturing Robot Maintenance and Programming. CNC Machining (set-up, operation and programming)