Starrett is offering a comprehensive white paper that discusses why traditional approaches to measurement data collection are inefficient and error-prone without the ability to support IoT/ Industry 4.0.
In my last column I listed some basic equipment requirements for the calibration of thread plug gages so I thought it would be helpful to give mating gages the same treatment.
Data collection has historically been completed manually. Before wireless gaging came onto the scene, staff would write down and physically log output data, a slow process with plenty of room for error.
Even with the availability of hundreds of standard precision tools and gages, sometimes measuring challenges are best solved with a specially made gage. It is critical to work hand-in-hand with engineers who are dedicated to making sure that an accurate and easy-to-use custom-made solution can be attained for specific application requirements.
Alluxa’s optical filters, specially designed for the advanced fluorescence spectrometer on the Mars Perseverance Rover, landed safely on Mars on Feb. 18, 2021.
Thread plug gages are fascinating products when you consider the technical details that go into their manufacture and the precision they embody. To some, they look like fancy bolts and are treated accordingly.
Digitalization has changed our world as the internet and modern technology continue to shape the manufacturing industry. For example, the vision of Industry 4.0 shows that production systems and machines are required to be flexible and adapt with continuously changing manufactured products. That means production will be more individualized, flexible, and faster.
The role of metrology is shifting. This is especially true in modern industrial settings and for increasingly exacting applications. Once perceived as a necessary evil residing in the quality control department validating the integrity of finished parts and components, today metrology is viewed more as an enabling technology that truly adds value.