Neutron radiography, or N-ray, is a powerful nondestructive testing method due to the unique properties of neutron radiation. While the mechanics are similar, N-ray provides a new perspective compared to X-ray. While neutron radiography has been underutilized as a nondestructive testing tool due to a lack of access to powerful enough neutron sources, Phoenix’s high flux neutron generators are changing the landscape.

See what new perspectives N-ray can offer you:

Beretta 92FS Neutron/X-Ray Image Comparison

440kV X-ray image
Neutron image

Neutron radiography is especially useful for imaging munitions. In this neutron image, details on the firearm can be seen that a high-energy x-ray would not depict, even the presence and position of gunpowder in each bullet.

Rotary Telephone X-Ray/Neutron Image Comparison

170kV X-ray image
440kV X-ray image
Neutron image

Neutron radiation and X-rays interact with materials differently, creating unique images. This rotary phone is comprised of many dense and light materials. The lower-energy 170 kV X-ray beam could not penetrate the denser materials of the phone. The higher-energy 440 kV X-ray beam could penetrate the denser materials, but was too high-energy to create an image of the lighter materials. The neutron beam could penetrate denser materials but not lighter materials, creating an image that shows more detail of the phone’s inner workings than either X-ray image could on its own. This is what makes neutron radiography such a powerful complementary tool to X-ray radiography.

Fuel Injector X-Ray/Neutron Image Comparison

100kV X-ray image
190kV X-ray image
Neutron image

As with the images of the rotary phone, these fuel injectors depict the differences between high and low energy X-ray images as well as neutron images. The image taken with 100 kV X-rays misses important details regarding the fuel injectors’ structures because the X-rays cannot easily penetrate the dense outer layers of material. However, the image taken with 190 kV X-rays also misses important details because while the X-rays can pass more easily through the denser material, they also pass too easily through the lighter material as well. The neutron image, on the other hand, offers more detail than either X-ray image on its own.

In particular, two of the fuel injectors have been clogged with condiments, which show up as white blockages in the plugs in the N-ray image and do not show up at all in the X-ray images. This shows the value of N-ray in rooting out defective parts!

Interactive N-Ray/X-Ray Comparison

Fuel injectors 100kV X-ray image Fuel injectors 190kV X-ray image
Fuel injectors 100kV X-ray image Fuel injectors neutron image

Click and drag on the vertical line to compare X-ray and N-ray images. One advantage the neutron image offers over the X-ray images is that details that did not show up on either the high-energy or low-energy X-rays, such as blockages within the fuel injectors, are visible.

Proxivision Ball Bearings X-Ray/Neutron Image Comparison

225kV X-ray image
400kV X-ray image
Neutron image

Interactive N-Ray/X-Ray Comparison

Proxivision bearings 225 kV logo Proxivision bearings neutron logo

Click and drag on the vertical line to compare X-ray and N-ray images.

Aircraft Turbine Blade (Cross-Section)

This cross section of a jet engine turbine blade shows off one of the most useful and unique applications of industrial neutron radiography. Turbine blades are cast around ceramic molds, and fragments of ceramic can clog their vital cooling channels. A blade with clogged cooling channels could break or even melt while in operation, so such flaws must be rooted out with 100% certainty. The only way to reliably detect these ceramic fragments is to wash the blade in a solution containing gadolinium, an element with a high neutron cross section. Once the gadolinium has permeated the ceramic’s porous structure, the fragments will show up in stark contrast on the resulting neutron image.

Hard Disk Drives

Because of the way neutron radiation passes easily through denser metals, the neutron image of the 3.5″ hard disk drive on the left mainly shows the less dense plastic components of the hard drive’s internals. the 2.5″ external hard drive on the right is entirely encased in a plastic shell which is more opaque, but not entirely opaque, to neutron radiation.

Interactive N-Ray/X-Ray Comparison

Hard Drive X-Ray Hard Drive N-Ray

Click and drag on the vertical line to compare X-ray and N-ray images. To neutrons, most of the metal parts of the hard disk drive, such as the faceplate, the read/write heads, and the disks themselves, are completely transparent, allowing a clearer look at some components that are not as visible, if at all, in the X-ray image.

Consumer Electronics

Neutron radiography can provide an interesting look into consumer electronics. As in the hard drive images, the plastic tends to be more opaque to neutrons than most of the electronic components, providing a unique view of the structures of these items.

Flashlight Neutron/X-Ray Image Comparison

Neutron image
X-ray image

Both N-ray and X-ray can offer distinct advantages over each other. In these images, both depict unique features of the flashlight in question. Phoenix is currently working on a method to seamlessly combine the data from X-rays and N-rays together into hybrid images, which would allow for an unparalleled look into an object’s inner working for cases in which both forms of radiography provide indispensable data.

Jar of Staples

Jar of staples - X-ray Jar of staples - N-ray

Click and drag on the vertical line to compare X-ray and N-ray images. For a rather offbeat comparison of the strengths and weaknesses of X-ray and N-ray imaging, we filled a glass jar with staples and a single plastic figurine. In the X-ray image, only the staples are visible. In the N-ray image, the staples are far less visible, but the figurine hidden within is entirely visible.

Interested in Learning More?

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Neutron Imaging Interests:Additional Details:Government Application:Propellants and Explosives: