1. Introduction - basic division of NDT methods, purpose of NDT, advantages and disadvantages 2. Defects of materials and products, basic classification of defects, their characteristics and control 3. Visual methods - introduction, visual inspection, evaluation of defects, 4. Capillary methods - principle of the method, division, implementation and evaluation 5. Magnetic and electromagnetic methods - introduction, principles, design, evaluation 6. Eddy current method - principle of the method, distribution, control procedures, other applications 7. Ultrasound tests - introduction, principle of the method, procedures, equipment 8. Radiographic method (radiation) - introduction, principle of the method, procedures 9. Fundamentals of other selected non-destructive methods - scattering flow method, acoustic emission method, thermography? 10. Examples of practical use of selected NDT methods in the control of materials and products 11. Technical standards used in NDT - basic overview of standards, qualifications and certifications
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The aim of the course is the general basics of non-destructive methods, which can be encountered in practice. An important part of the course is the characteristics of surface and internal defects, due to which NDT controls are used. The course deals with both simpler, less technically demanding NDT methods, as well as more complex ones, in which the emphasis is on understanding the basic principles and their use and application in practice. The course also pays attention to standards, which are an integral part of practical testing using NDT methods.
? The student will gain knowledge of instrumentation in defectoscopy, its use and proper application. ? The student will expand the ability to identify defects and ways to prevent them, solve production problems and complaints. ? The student masters the legislation associated with an accredited laboratory.
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