Course detail
Testing of Materials and Products
FSI-DZM-KAcad. year: 2023/2024
Using appropriate testing methods it is possible to determine the utilization of a material in a given technical application, to determine defects of materials (open-grain structures, inclusions, cracks, etc.) and to assess any possible degradation of the applied material during an operation (wear, occurrence of fatigue cracks, etc.). As a part of the course, the description, importance and application of the most important mechanical, technological and non-destructive tests is given. Attention is also paid to fundamentals of phase and structural analyses using light microscopy.
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Entry knowledge
Rules for evaluation and completion of the course
The degree of mastering the problem and the fulfillment of the intermediate requirements is assessed by the teacher by the ECTS classification.
Exercises are compulsory. Absence from the exercises must be properly excused. The course-unit credit is awarded on condition of having worked out several individual presentations during the semester.
Aims
The course allows students to obtain a view of testing equipment and methods which are used at destructive and non-destructive testing of constructional materials.
Study aids
Prerequisites and corequisites
Basic literature
Dowling, E.N.: Mechanical Behaviour of Materials, , 0
Wood, W.A.: The Study of Metal Structures and their Mechanical Properties, , 0
Recommended reading
Pluhař, J. a kol.: Nauka o materiálech, , 0
Veles, P.: Mechanické vlastnosti a skúšanie kovov, , 0
Classification of course in study plans
Type of course unit
Guided consultation in combined form of studies
Teacher / Lecturer
Syllabus
2. Testing of the friction coefficient at shanking.
3. Deep-drawing sheet testing.
4. Method of nets, FLD diagrams.
5. Method of surface defect determination (capillary method etc.).
6. Method of inherit defect determination (X-ray).
7. Method of inherit defect determination (scan etc.).
8. Light microscopy and metallography.
9. The static tensile test.
10. Brittle failure of materials.
11. Fatigue of materials and testing I.
12. Fatigue of materials and testing II.
13. Creep and relaxation.
Laboratory exercise
Teacher / Lecturer
Syllabus
2. The ring upsetting testing.
3. The surface anisotropy evalution.
4. The evalution of the ring network cup.
5. Capilary and magnetic tests.
6. Radiography testing (X-ray).
7. Scan testing.
8. Light microscopy and microhardness.
9. The static tensile test.
10. Brittle failure of materials.
11. Fatigue of materials and testing I.
12. Fatigue of materials and testing II.
13. Test and the credit.
Guided consultation
Teacher / Lecturer
Syllabus
2. Testing of the friction coefficient at shanking.
3. Deep-drawing sheet testing.
4. Method of nets, FLD diagrams.
5. Method of surface defect determination (capillary method etc.).
6. Method of inherit defect determination (X-ray).
7. Method of inherit defect determination (scan etc.).
8. Light microscopy and metallography.
9. The static tensile test.
10. Brittle failure of materials.
11. Fatigue of materials and testing I.
12. Fatigue of materials and testing II.
13. Creep and relaxation.