Andrzej Ryniewicz
Technical Transactions, Volume 8 Year 2017 (114), 2017, pp. 177-185
https://doi.org/10.4467/2353737XCT.17.139.6890The purpose of the thesis is to show the dental imaging capability of Cone Beam Computed Tomography (CBCT) in comparison with intraoral X-ray images for detection and assessment of periapical lesions before and during treatment as well as to present the use of diagnostic functions in the available software. The thesis presents two clinical cases.
Andrzej Ryniewicz
Technical Transactions, Volume 9 Year 2018 (115), 2018, pp. 189-200
https://doi.org/10.4467/2353737XCT.18.140.8979This paper presents the sophisticated capabilities of industrial computed tomography (CT) in the development and 3D modelling process of new car system components. Usually, the process of the development of new car components takes three to five years. At each development process stage, quality control is crucial to catch all internal and external defects. This is particularly important with regard to components made using an injection-moulding process. Computed tomography as a non-destructive testing method is an excellent tool for controlling and improving both the manufacturing process and the 3D modelling of tested components. All analyses performed with use of CT are essential for meeting customer requirements. This paper shows how industrial computed tomography can control the quality of the car components development process.
Andrzej Ryniewicz
Technical Transactions, Volume 9 Year 2018 (115), 2018, pp. 181-188
https://doi.org/10.4467/2353737XCT.18.141.8980This paper shows how industrial computed tomography (CT) works, its benefits and where it can be used in automotive world. As a non-destructive quality control technique (NDT), CT allows not only the measurement and evaluation of external and internal geometry, but is also useful for making reports with a visualisation of an entire component, e.g. a map of shape deviation and internal structural defects.