X-Ray and CT Annimations

Small Sized Plastic Object

ResinIQI Xray Rotation

 

An animation of the x-ray projection images of the plastic object. It is magnified by about 5X.

 

ResinIQI CT Slices Vertical Flythrough

 

An animation of the cross-sectional slices from the 3D volume set created from the CT scan data. The volume data was calculated using a filtered back projection reconstruction algorithm written at CNDE.

 

Large Ceramic Object

Phantom Mounted Spin

 

This is a video showing a 3D-printed ceramic object that is approximately 5 inches wide. It is on the larger end of objects that will fit in our CT scanning system.

 

Phantom Xray Rotation Highlighting Thick Features

 

Here is an animation of the X-ray projection images of the ceramic object. There is very little magnification. The image brightness and contrast were adjusted to display the thickest regions.

 

Phantom Xray Rotation Highlighting Thin Features

 

Here is an animation of the X-ray projection images of the ceramic object. There is very little magnification. The image brightness and contrast were adjusted to display the thinner regions.

 

Phantom CT Slices Vertical Flythrough

 

An animation of the cross-sectional slices from the 3D volume set created from the CT scan data. The volume data was calculated using a filtered back projection reconstruction algorithm written at CNDE.

 

Phantom CT Slices Side Flythrough

 

An animation of the longitudinal slices from the 3D volume set created from the CT scan data. These slices are at a right angle to the cross-sectional slices shown above. The volume data was calculated using a filtered back projection reconstruction algorithm written at CNDE.

 

Medium Sized “Popular” Sample

 

An animation of the x-ray projection images of a popular snack item. It is magnified by about 4X.

 

 

 

An animation of the cross-sectional slices from the 3D volume set created from the CT scan data. The volume data was calculated using a filtered back projection reconstruction algorithm written at CNDE.

 

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