Computed tomography in industry

How does an industrial CT scanner work?
With an x-ray tube being the point source, the x-rays pass through the measured object to reach the X-ray sensor.
The cone-shaped x-ray beam produces two-dimensional radiographic images of the object which the sensor then treats in a manner similar to the image sensor in a digital camera..
What are the industrial applications of computed tomography?
Typical areas of use for CT in industry are in the detection of flaws such as voids and cracks, and particle analysis in materials.
In metrology, CT allows measurements of the external as well as the internal geometry of complex parts..
What is the role of computed tomography in additive manufacturing?
CT scans of AM parts are enabling the refinement of existing AM processes as well as the development of new ones.
For example, performing a CT scan of a particular component and comparing it to the original design enables manufacturers to determine the precise correlation between the schematic and the finished product..
CT scans of AM parts are enabling the refinement of existing AM processes as well as the development of new ones.
For example, performing a CT scan of a particular component and comparing it to the original design enables manufacturers to determine the precise correlation between the schematic and the finished product.
However, there are some differences: While most industrial CT scanners use cone beam geometry and axial scans, many modern medical CT scanners use fan beam geometry and helical (spiral) scans.
The exact calculation involved in reconstruction is different between the two.
With an x-ray tube being the point source, the x-rays pass through the measured object to reach the X-ray sensor.
The cone-shaped x-ray beam produces two-dimensional radiographic images of the object which the sensor then treats in a manner similar to the image sensor in a digital camera.

An industrial computed tomography (CT) scan conducted on an aluminum casting to identify internal failures such as voids. All color coordinated particles within Analysis and inspection AssemblyGeometric dimensioning and

CT scanning can detect internal features and flaws displaying this information in 3D without destroying the part. Industrial CT scanning (3D X-ray) is used to detect flaws inside a part such as porosity, an inclusion, or a crack.

Industrial CT scanning (3D X-ray) is used to detect flaws inside a part such as porosity, an inclusion, or a crack. It has been also used to detect the origin and propagation of damages in concrete.

Industrial CT scanning has been used in many areas of industry for internal inspection of components. Some of the key uses for industrial CT scanning have been flaw detection, failure analysis, metrology, assembly analysis and reverse engineering applications.

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Computed tomography in industry

How does an industrial CT scanner work?

What are the industrial applications of computed tomography?

What is the role of computed tomography in additive manufacturing?