How Industrial X-Rays Have Changed Engineering, Medical And Science Fields As We Know It

Technology grows faster, faster. Nowhere is that more clear than the development of industrial x-rays. From 3D inspection software to assembly analysis, this flexible and particular form of technology has proved invaluable for countless industries over the decades. Computerized tomography is a necessary component for medical industries to assist their patients, manufacturing companies to deliver their products and production studios to store their inventory. Below is a comprehensive history of industrial x-rays, how they were originally conceived and what they are used for in the modern day.

History Of CAT Scanning

The first CT scanner was invented all the way back in the 1970’s thanks to the advances of British engineer Godfrey Hounsfield of EMI Laboratories. Working alongside South African-born physicist Allan Cormack of Tufts University in Massachusetts, they both were awarded the Nobel Peace Prize for their contributions to the fields of medicine and science. Hounsfield’s original CT scanner originally took several hours to acquire raw data, also known as a single scan or ‘slice’, and would take entire days to reconstruct singular images. For comparison, modern industrial x-rays can collect four slices of raw data (as much as millions of data points) in less than a second.

Development Of Science And Medical Industries

Industrial x-rays took time to become fully implemented throughout the United States. In the late 1970’s the earliest CT scanning models were installed and originally dedicated to crafting head images for medical staff. Whole body systems were implemented a few years later with larger patient openings, eventually becoming widely available by the 1980’s and paving the way for multiple sociological breakthroughs. As of now there are nearly 6,000 CT scanners working throughout the country, with 30,000 estimated worldwide.

Functioning Methods

Let’s take a look at how industrial 3D scanner services work. Compared to earlier models, part size is no longer an issue for modern 3D inspection scanners. Industrial x-rays can be taken as quickly as 30 frames per second, with part sizes as small as .5mm in length able to be digitally x-rayed. A micro-CT scan will yield resolutions in microns due to the focal spot of the focus tube, crafting a resolution as many as 100 times better than even the best CAT scan in the medical field. A resolution of 2.88 line pairs per mm was originally considered essential to maintain diagnostic accuracy.

Digital Radiography

Digital methods have proven both economically effective and time-saving for companies the world over. Thanks to digital radiography, be it an image produced by a radiography panel or a computed imaging plate, the radioactive source of power is noticeably reduced by as much as 50%. This image transfer by means of electronic processing is considered vastly superior to chemical film processing, providing results that are nearly five times faster. All this and more has contributed to the x-ray inspection services we enjoy today.

Using Industrial Scanning

While CT scan calibration methods share similarities no matter what they’re used for, each specialty will have its own unique traits for the job. Medical CAT scans remain some of the most detail-oriented, to better pinpoint subtle changes in physiology and address them as acutely as possible. Industrial CT scanning processes allow customers to reduce their new product inspection costs and failure costs alike by 75% at the most, offsetting existing technology by a significant margin. Whether it’s an engineering industry crafting vital parts for machine technology or the medical field accurately diagnosing illness in its patients, industrial x-rays are the way of the future.