Course detail
Diploma Project (M-STG, Forming, Welding)
FSI-HD3-K Acad. year: 2025/2026 Summer semester
Diploma thesis is the culmination of the engineering studies and is focused on the engineering technology. The student creatively applies the knowledge obtained in the area of engineering technologies specializing in metal-forming, welding or surface treatment. The project is worked out under the guidance of a supervisor and, if necessary, consultations with specialists in the given field are provided. Project specifications from industrial companies are appreciated.
Language of instruction
Czech
Number of ECTS credits
13
Supervisor
Department
Entry knowledge
Regular completion of all the specialized courses in the field of engineering technology and in the metal-forming, welding, and surface treatment specializations.
Rules for evaluation and completion of the course
The diploma thesis assessment is conditional on submitting the original of the diploma project in the required scope and formal layout. The diploma project is also assessed by the respective diploma leader and reviewer. The degree to which the tasks have been fulfilled and the quality of the technical report submitted are reflected in the mark awarded. The diploma project is defended viva voce and evaluated in final classification by a State Examination Board.
Participation in lectures and consultations is mandatory -compulsory.
Attendance is regularly checked and recorded.
Working out, reviewing,and defending viva voce the diploma project form an integral part of regular completion of MSc studies and awarding the MSc degree.
Aims
The objective of the course is to prove students ability to solve independently the assigned technological project and to apply comprehensively the knowledge acquired in their studies to the assigned project, as well as to elaborate a technical solution under professional guidance.
Students will test their capacity for independent creative work and analytical reasoning in the course of collecting, processing and evaluating technical data. They will master the method of approaching the problem of elaborating a technological project.
The study programmes with the given course
Programme N-STG-K: Manufacturing Technology, Master's
specialization STG: Manufacturing Technology, compulsory-optional
Type of course unit
Guided consultation
35 hours, optionally
Syllabus
1. Searching the literature concerning the problems involved in the assignment (literature from the past five to ten years.
2. Working out a brief study regarding the assigned problems, based on literature searches.
3. Evaluating the current state of solution in corresponding technical practice.
4. Proposing a suitable production technology, choosing the optimum variant, and working out an integral production procedure.
5. Designing the tool assembly and making the workshop drawings of the assigned component as well as the tool.
6. Assessing the technical and economic benefits of the proposed technology.
7. Conclusions.
Laboratory exercise
17 hours, compulsory
Syllabus
1. Searching the literature concerning the problems involved in the assignment (literature from the past five to ten years.
2. Working out a brief study regarding the assigned problems, based on literature searches.
3. Evaluating the current state of solution in corresponding technical practice.
4. Proposing a suitable production technology, choosing the optimum variant, and working out an integral production procedure.
5. Designing the tool assembly and making the workshop drawings of the assigned component as well as the tool.
6. Assessing the technical and economic benefits of the proposed technology.
7. Conclusions.
Supervision of Master’s thesis
156 hours, optionally
Syllabus
1.Content of diploma thesis according to the applicable regulations.
2.Searching the literature concerning the problems involved in the assignment (literature from the past five to ten years.
3.Working out a brief study regarding the assigned problems, based on literature searches.
4.Evaluating the current state of solution in corresponding technical practice.
5.Proposing a suitable production technology, choosing the optimum variant, and working out an integral production procedure.
6.Designing the tool assembly and making the workshop drawings of the assigned component as well as the tool.
7.Assessing the technical and economic benefits of the proposed technology.
8.Conclusions.