If you talk to any well-respected individual in the science or medical field, they’ll confirm that computed tomography, or CT scanning/CAT scanning, is one of the most remarkable innovations in the world of medicine. In 1979, CT scanning was actually the reason that its inventors won a Nobel Prize. For 40 years, this method of scanning has been the top medical diagnostic tool.
But as technology continually and rapidly advances, the utilization of CT scanning advances as well. Now, this method of 3d scanning has a multitude of uses in the industrial world — especially when it comes to testing process and medical devices that need to remain intact in order for them to function properly.
So how do these CT scanning methods work, exactly? Let’s start with the basics. CT scanners and industrial scanners have the capability of capturing images of internal structures. Even though structures tend to overlap, 3d imaging eliminates the issue of overlap, making anatomy more apparent and allowing researchers to inspect each individual layer at face value.
This works through a process that is called reverse engineering services. When it comes to medical equipment and other complicated life-saving pieces of machinery, it’s very important that these items work in the exact way that they’re meant to. However, when you aren’t able to deconstruct these machines, accuracy of function is extremely difficult to guarantee. But with 3d laser scanning, you are able to discern each individual layer or component on an individual basis. And through this noninvasive process, the product is able to be inspected while remaining intact.
Statistically speaking, these methods are shown to reduce the costs of product inspection and failure analysis by as much as 25%. Other existing technnology has an overwhelming failure rate of 75%.
With CT scanning services continually advancing, who knows how it will be able to help us in the future.
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