Theoretical aspects and eco-technique of forming
| Type of study | Bachelor |
|---|---|
| Language of instruction | Czech |
| Code | 652-2314/01 |
| Abbreviation | TZE |
| Course title | Theoretical aspects and eco-technique of forming |
| Credits | 5 |
| Coordinating department | Department of Metallurgical Technologies |
| Course coordinator | prof. Ing. Radim Kocich, Ph.D. |
Subject syllabus
1.Introduction
2.Main aims of plane and bulk forming, characteristics of basic forming processes.
3.Definition of basic terms and parameters in forming technologies. The ways of imposed strain expression.
4.Stress states, crystal lattices, dislocations, shear systems and most important mechanisms of plastic deformation.
5.Basic laws of plastic deformation
6.Fundamentals of steels and chosen non-ferrous alloys forming under cold warm and hot conditions. Work hardening of materials, basics of flow stress.
7.Restoration processes during material forming.
8.Specifics in plastic deformation of cast structures. Material’s aspects of formability, deformation maps.
9.Potential of eco-techniques in forming
10.Determination methods for plasticity, plastometric tests
11.Energetical aspects of plastic deformation techniques
12.Economical optimization of plastic deformation processes
13.The environmental impact of optimized plastic deformation techniques
2.Main aims of plane and bulk forming, characteristics of basic forming processes.
3.Definition of basic terms and parameters in forming technologies. The ways of imposed strain expression.
4.Stress states, crystal lattices, dislocations, shear systems and most important mechanisms of plastic deformation.
5.Basic laws of plastic deformation
6.Fundamentals of steels and chosen non-ferrous alloys forming under cold warm and hot conditions. Work hardening of materials, basics of flow stress.
7.Restoration processes during material forming.
8.Specifics in plastic deformation of cast structures. Material’s aspects of formability, deformation maps.
9.Potential of eco-techniques in forming
10.Determination methods for plasticity, plastometric tests
11.Energetical aspects of plastic deformation techniques
12.Economical optimization of plastic deformation processes
13.The environmental impact of optimized plastic deformation techniques
E-learning
Literature
1.RADI, B., EL HAMI, A. Material Forming Processes: Simulation, Drawing, Hydroforming and Additive Manufacturing, Wiley, 2016. ISBN:9781848219472 .
2.VINCZE, G., BARLAT, F. Achievements and Trends in Material Forming. 2022. ISBN 9783035717594 .
3.SZELIGA, D., MUSZKA, K. Metal Forming 2024, Materials Research Forum LLC, Millersville, 2024. ISBN 978-1-64490-324-7 .
2.VINCZE, G., BARLAT, F. Achievements and Trends in Material Forming. 2022. ISBN 9783035717594 .
3.SZELIGA, D., MUSZKA, K. Metal Forming 2024, Materials Research Forum LLC, Millersville, 2024. ISBN 978-1-64490-324-7 .
Advised literature
1.LEE, Y. Rod and Bar Rolling-Theory and Applications, CRC Press, 2014. ISBN: 9780824756499 .
2.GINZBURG, V., BALLAS, R. Flat Rolling Fundamentals (Manufacturing Engineering and Materials Processing), CRC Press, 2000. ISBN 978-0824788940 .
3.ALTAN, T., NGAILE, G., SHEN, G. Cold And Hot Forging: Fundamentals And Applications, ASM International, 2004. ISBN 978-0871708052 .
2.GINZBURG, V., BALLAS, R. Flat Rolling Fundamentals (Manufacturing Engineering and Materials Processing), CRC Press, 2000. ISBN 978-0824788940 .
3.ALTAN, T., NGAILE, G., SHEN, G. Cold And Hot Forging: Fundamentals And Applications, ASM International, 2004. ISBN 978-0871708052 .