Lectures
1. Assortment of rolled products.
2. Rolling mills – types and dispositions.
3. Rolling stands.
4. Theory of rolling.
5. Production of blanks.
6. Sequence of continuous casting and rollling.
7. Processing of thin casted slabs and strips.
8. Hot rolled flat products.
9. Technology and particularities of cold rolling.
10. Control of flatness of plates and strips.
11. Thermomechanical processing of section steel.
12. Rolling and controlled cooling of wire.
13. Rolling of tubes.
Exercises
1. Basic principle of the plastic deformation – computational example
2. Formulation of dimensional changes at forming – computational example, test
3. Verification of principle of volume preservation at laboratory sheet rolling, report
4. Calculation of deformation force at hot rolling
5. Determination of mean flow stress and forming factor – computational example
6. Dependence of spread at the temperature, deformation and deformation rate – laboratory hot rolling of the flat sample
7. Statistical evaluation of the dependence of spread – report
8. Rolling with tension – theoretical analysis, assignment
9. Rolling with tension – computational methodology, report
10. Excursion to factory
11. Selection of the article with related theme in the foreign language – library, Internet
12. Preparation of the presentation of the selected article – PowerPoint
13. Presentation of the paper
14. Credit test, credit
1. Assortment of rolled products.
2. Rolling mills – types and dispositions.
3. Rolling stands.
4. Theory of rolling.
5. Production of blanks.
6. Sequence of continuous casting and rollling.
7. Processing of thin casted slabs and strips.
8. Hot rolled flat products.
9. Technology and particularities of cold rolling.
10. Control of flatness of plates and strips.
11. Thermomechanical processing of section steel.
12. Rolling and controlled cooling of wire.
13. Rolling of tubes.
Exercises
1. Basic principle of the plastic deformation – computational example
2. Formulation of dimensional changes at forming – computational example, test
3. Verification of principle of volume preservation at laboratory sheet rolling, report
4. Calculation of deformation force at hot rolling
5. Determination of mean flow stress and forming factor – computational example
6. Dependence of spread at the temperature, deformation and deformation rate – laboratory hot rolling of the flat sample
7. Statistical evaluation of the dependence of spread – report
8. Rolling with tension – theoretical analysis, assignment
9. Rolling with tension – computational methodology, report
10. Excursion to factory
11. Selection of the article with related theme in the foreign language – library, Internet
12. Preparation of the presentation of the selected article – PowerPoint
13. Presentation of the paper
14. Credit test, credit