Course syllabus STRT1 - Machine Industry Technology I (FA - SS 2019/2020)

     ECTS syllabus          Syllabus          Timetable          

     Czech          English          

Course code: STRT1
Course title in language of instruction: Strojírenská technologie I
Course title in Czech: Machine Industry Technology I
Course title in English: Machine Industry Technology I
Mode of completion and number of credits: Exam (5 credits)
(1 ECTS credit = 28 hours of workload)
Mode of delivery/Timetabled classes: full-time, 2/2 (hours of lectures per week / hours of seminars per week)
Language of instruction: Czech
Level of course: bachelor
Semester: SS 2019/2020
Name of lecturer: Ing. Radim Šmak (instructor)
doc. Ing. Jiří Votava, Ph.D. (examiner, instructor, lecturer, supervisor, tutor)
Prerequisites: none
Aims of the course:
In this course, students will acquire a basic knowledge about those technological processes in the field of casting, moulding and jointing, which are necessary when deciding about maintenance and repairs of machinery and/or application of renovation technologies.
Course contents:
1.Physical metallurgical principles of foundry (allowance 2/2)
a.Melt formation
b.Homogeneous and heterogeneous nucleation

2.Construction materials for castings (allowance 2/2)
a.Grey cast iron
b.Cast iron
c.Tempered cast iron

3.Model equipment, molding materials, molding (allowance 2/2)
a.Durable and endurable forms
b.Sharpener, binder of mold

4.Melal melting (allowance 2/2)
a.Cupola furnaces
b.Induction furnaces

5.Modern casting technology (allowance 2/2)
a.Cleaning of castings
b.Casting utilization in technical practice

6.Physical metallurgical principles of metal forming (allowance 2/2)
a.Basic forming technology

7.Separation of material (allowance 2/2)
a.Machine saws, laser, water jet
b.Cutting, sheet metal drawing

8.Volume forming of technical materials (allowance 2/2)
a.Cold forming
b.Hot forming

9.The use of components made by molding in mechanical engineering (allowance 2/2)
10.Disassemble and non-detachable joints in technical practice (allowance 2/2)
11.Physical metallurgical foundations of melt welding (allowance 2/2)
a.Flame welding

12.Arc welding (allowance 2/2)
a.Methods MMA, MAG, MIG
b.Resistance welding

13.Additional materials for welding (allowance 2/2)
14.Soldering and bonding of metals (allowance 2/2)
Learning outcomes and competences:
Generic competences:
-Ability to apply knowledge
-Ability to make decisions
-Ability to solve problems
-Capacity to learn
-Professional knowledge

Specific competences:
-Ability to select and plan the consequential product processing
-Knowledge of the casting technology basic principles.
-Knowledge of the forming technology basic principles.
-Knowledge of the welding technology basic principles.
-Suitability of the chosen technology assessment.
-The ability to choose the right method of engineering blanks production.

Type of course unit: required
Year of study: Not applicable - the subject could be chosen at anytime during the course of the programme.
Work placement: There is no compulsory work placement in the course unit.
Recommended study modules: -
Learning activities and study load (hours of study load):
Type of teaching methodDaily attendance
Direct teaching
     lecture28 h
     practice20 h
     seminar4 h
     professional educational excursion4 h
     preparation for exam60 h
     preparation for regular assessment8 h
     preparation for regular testing10 h
     writing of seminar paper6 h
Total140 h
Assessment methods:
Final credit, written and oral examination
For final credit is necessary 80% participation at seminars and participation in excursion in the manufacturing service. During the semester, students take two credit tests with a maximum score of 15 points each. The minimum score for credit is 20 points.
Examination: Presumption for sign in the exam is a final credit from this course. Examination is written and verbal. The written part includes 5 questions. Student must answer at least 75% each. The verbal part of the exam consists of two supplementary questions. The student must demonstrate min. knowledge of 80% of the information that was given in lectures and exercises.
Recommended reading:
TypeAuthorTitlePublished inPublisherYearISBN
RQAMBROŽ, O.Technologie svařováníOstravaZEROSS200580-85771-81-0
RQDOUBRAVSKÝ , M.Technologie slévání, tváření a svařováníBrnoVUT Brno1985
RQDILLINGER, J.Moderní strojírenství pro školu i praxiPrahaEuropa Sobotáles2007978-80-86706-19-1
RQHUMÁR, A.Materiály pro řezné nástroje PrahaMM,publishing,s.r.o.2008978-80-254-2250-2
RQJELÍNEK, P.Slévárenství OstravaVysoká škola báňská - Technická univerzita 200080-7078-952-2
RQKOUKAL, J. -- ZMYDLENÝ, T.Svařování IOstravaVŠB - Technická univerzita Ostrava 200580-248-0870-6
RQGAZDA, J.Teorie obrábění : průvodce tvorbou třískyLiberecTechnická univerzita v Liberci2009978-80-7372-498-6
RQDVOŘÁK, M. -- GAJDOŠ, F. -- NOVOTNÝ, K.Technologie tváření: plošné a objemové tvářeníBrnoAkademické nakladatelství CERM2007978-80-214-3425-7
RQPODRÁBSKÝ, T. -- SKOČOVSKÝ, P.Grafitické liatinyŽilinaŽU200580-8070-390-6
REMINAŘÍK, V.Obloukové svařováníPrahaScientia200380-7183-285-5
REMIELNIK, E M.Metalworking Science and EngineeringNew YorkMcGraw-Hill19910-07-041904-3
REPETRUŽELKA, J.Tvařitelnost a nekonvenční metody tváření. 1. vydáníOstravaVŠB - TU 2000


Last modification made by Ing. Michal Karhánek on 11/25/2019.

Type of output: