VŠTE:N_STE_3 Engineering technologies III. - Course Information

N_STE_3 Engineering technologies III.

Extent and Intensity

4/2/0. 7 credit(s). Type of Completion: zk (examination).

Teacher(s)

doc. Ing. Marta Harničárová, PhD. (seminar tutor)

Guaranteed by

doc. Ing. Marta Harničárová, PhD.
The Department of Mechanical Engineering – School of Expertness and Valuation – Rector – Institute of Technology and Business in České Budějovice
Supplier department: The Department of Mechanical Engineering – School of Expertness and Valuation – Rector – Institute of Technology and Business in České Budějovice

Timetable of Seminar Groups

N_STE_3/P01: each even Tuesday 11:25–17:25 B4, M. Harničárová
N_STE_3/S01: each even Monday 8:00–11:10 D416, M. Harničárová

Prerequisites (in Czech)

FORMA(P)

Course Enrolment Limitations

The course is offered to students of any study field.

Course objectives supported by learning outcomes

The subject provides the review about the most important enginiering technologies to students by the form of lectures and exercise. It also provides the reviuw about facilities, suitability, ways and the condicions of implementation of these technologies. It is the importent part of qualification all technical workers in ingineering. The chosen technologies wil be explained in details in the tied subject Engineering technology II. The abilities in the area of creation of technological equipments will be developed by the subject Production supported by computer.

Learning outcomes

The student will acquire knowledge of technological manufacturing processes, tool and component design, assembly, handling, and production equipment. They will be able to analyze and optimize manufacturing processes, design experiments, work with CNC technologies, and verify process models. The student will develop skills for independent solving of technical tasks and production management with emphasis on efficiency, automation, and integration, enabling their employment across various industrial sectors.

Syllabus

1.Characteristics of machining, forming, and welding technologies and the significance of these technologies in current practice. 2.Theoretical foundations of machining, classification of basic types and methods of conventional and non-conventional machining. 3.Chip formation, tool materials, force analysis, thermal balance in machining, and other phenomena of the machining process. 4.Fundamentals of turning, force effects in turning, lathes, tool and workpiece clamping. 5.Fundamentals of milling, force effects in milling, types of milling, fundamentals of drilling and specific drilling on lathes, boring, rough reaming, reaming, countersinking. 6.Fundamentals of grinding, types of cylindrical and surface grinding. 7.Finishing machining methods and selected non-conventional machining methods. 8.Machine tools, fundamentals of CNC machining, machining automation, and current trends in machining. 9.Qualitative and quantitative evaluation of workpieces, fundamentals of metrology and measurement. 10.Forming technology and its basic classification and significance in current practice. 11.Sheet metal forming production processes: shearing, bending, deep drawing. 12.Special forming technologies. 13.Isothermal and superplastic forming. 14.Superplastic sheet forming (SPF). 15.Forming of semi-finished products manufactured by powder metallurgy. 16.High-energy-rate forming, hydrostatic extrusion. 17.Ultrasonic forming and hydrodynamic lubrication. 18.Welding technology and design considerations for welded joints. 19.Computational methods and monitoring in welding. 20.Heat treatment of welded joints in practice. 21.Service life and operational reliability of dissimilar welded joints. 22.Quality and safety of welded joints in practice. 23.Testing of welded joints in practice. 24.Issues of degradation processes in welded joints. 25.Non-conventional welding technologies in practice. 26.Application possibilities of technologies for Industry 4.0

Literature

required literature
• KUČERKA, Daniel; Ján KMEC; Lýdia SOBOTOVÁ; Soňa RUSNÁKOVÁ; Roman HRMO; Milan TIMKO; Martin PODAŘIL; Štefan HUSÁR and Monika KUČERKOVÁ. Strojárska technológia I : 1. diel (Engineering technology I : part I). 1. vyd. České Budějovice: Vysoká škola technická a ekonomická v Českých Budějovicích, 2014, 135 pp. ISBN 978-80-7468-058-8. info
• KUČERKA, Daniel; Soňa RUSNÁKOVÁ; Ján KMEC; Miroslav GOMBÁR; Miloslav PILEČEK; Roman HRMO; Martin PODAŘIL; L'uba BIČEJOVÁ and Monika KUČERKOVÁ. Strojárska technológia I : 2. diel (Engineering technology I : part II). 1. vyd. České Budějovice: Vysoká škola technická a ekonomická v Českých Budějovicích, 2014, 189 pp. ISBN 978-80-7468-068-7. info
• KMEC, Ján; Daniel KUČERKA; Miroslav GOMBÁR; L'uba BIČEJOVÁ; Sobotová LÝDIA; Ludmila OPEKAROVÁ; Jarmila STRAKOVÁ; Alena VAGASKÁ and Roman HRMO. Waterjet for Practice. 1. vyd. Lüdenscheid: RAM - Verlag, 2014, 150 pp. Edition of scientific and technicla literature. ISBN 978-3-942303-27-9. info

recommended literature
• KMEC, Ján; Daniel KUČERKA; Miroslav GOMBÁR; Roman HRMO and L'uba BIČEJOVÁ. Delenie materiálov (Cutting of materials). 1. vyd. Košice: Technická univerzita v Košiciach, 2014, 287 pp. ISBN 978-80-553-1872-1. info
• KMEC, Ján; Daniel KUČERKA; Miroslav GOMBÁR; Soňa RUSNÁKOVÁ and Štefan HUSÁR. Kovové materiály pre výrobu automobilov (Metallic materials for automobiles). 1. vyd. České Budějovice: Vysoká škola technická a ekonomická v Českých Budějovicích, 2014, 183 pp. ISBN 978-80-7468-069-4. info
• KMEC, Ján; Emil SPIŠÁK; Daniel KUČERKA; Soňa RUSNÁKOVÁ; Roman HRMO; Miroslav GOMBÁR and L'uba BIČEJOVÁ. Materiály pre automobilový priemysel (The materials for the automotive industry). 1. vyd. Košice: Technická univerzita v Košiciach, 2014, 220 pp. ISBN 978-80-553-1862-2. info
• HRMO, Roman; Daniel KUČERKA and Soňa RUSNÁKOVÁ. Strojárstvo, Vysokoškolská učebnica pre majstrov odbornej výchovy (Engineering, Academical textbooks for trainers). 1. vyd. Dubnica nad Váhom: Dubnický technologický inštitút v Dubnici nad Váhom, Vysoká škola technická a ekonomická v Českých Budějovicích, 2014, 236 pp. ISBN 978-80-7468-057-1. info

not specified
• Nová a kol. Technológie I. Skripta TU v Liberci, 2006
• Novotný, J a kol. Technologie I, Brno, 2006. ISBN 80-01-02351-5
• Samek, R. Šmehlíková, E. Speciálni technologie tváření. Brno, 2010. ISBN 978-80-214-4220-7
• Dvořák, M. a kol. Technologie II.Brno, 2004. ISBN 80-214-8683-7

Organizační formy výuky

Lecture
Seminar
Professional Practice
Tutorial

Komplexní výukové metody

Frontal Teaching
Group Teaching - Competition
Group Teaching - Cooperation
Group Teaching - Collaboration
Project Teaching
Brainstorming
Critical Thinking
Individual Work– Individual or Individualized Activity
Teaching Supported by Multimedia Technologies

Student Workload

Activities	Number of Hours of Study Workload
	Daily Study	Combined Study
Preparation for Lectures	14
Preparation for Seminars, Exercises, Tutorial	20	60
Preparation for the Final Test	35	40
Semester project	35	66
Attendance on Lectures	52
Attendance on Seminars/Exercises/Tutorial/Excursion	26	16
Total:	182	182

Metody hodnocení a jejich poměr

Exam – written
Test – final 70%
Seminary Work
Project – semestral 30%

Podmínky testu

completion of the semester project - 30%. The exam has a written part (70%): Classification scale: A 100 - 90, B 89.99 - 84, C 83.99 - 77, D 76.99 - 73, E 72.99 - 70, FX 69.99 - 30, F 29.99 - 0

Language of instruction

Czech

Teacher's information

The teaching of the subject is situated in the laboratory H13 - classroom, according to the needs and on the basis of the syllabus the possibility to use the laboratory H14. Attendance at classes in all forms is governed by a separate internal standard of VŠTE (Records of student attendance at VŠTE). For full-time students, 70% attendance is required for contact classes, ie everything except lectures.

• Enrolment Statistics (recent)
  
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