3D printing technology is an equipment in which computer-modeled data is add together layer by layer by rapid prototyping technology to create a three-dimensional object. These characteristics are fused with the field of radiology and are utilized for the quality control phantom or the anatomical model phantom using CT data. Therefore, this study produced a cylinder of 25 mm diameter, 50 mm height and 100% fill density which was used as a material for Fused Filament Fabrication (FFF) 3D Printers: PLA, ABS, XT, Wood, XT-CF20, Glow fill, Steel, Thermoplast Poly-Urhet (TP-A), Brasson, 95, Brasson. The cylinder is then assembled on the linearity measurement block of the American Association of Physicians in Medicine (AAPM) CT phantom. The assembled phantom was scanned under the same conditions and the HU of the tissues in the human body was compared with the HU in the obtained images. As a result, each filaments showed a difference of HU. Since HU was measured from - 100 HU to + 3,000 or more HU, materials with HU similar to the anatomical tissue of the actual human body were found. On the basis of this study, the feasibility of 3D printing technology fusion with radiographic images, such as the possibility of producing quality control phantom and X-ray shield as well as the practicality of anatomical phantom production was confirmed.