Sylabus předmětu SRTT - Technologies in Engineering (ILE - SS 2018/2019)

     ECTS sylabus          Sylabus          Rozvrh          

     Čeština          Angličtina          

Course code: SRTT
Course title in language of instruction: Strojírenská technologie
Course title in Czech: Technologies in Engineering
Course title in English: Technologies in Engineering
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)
part-time, 18/0 (lectures per period / seminars per period)
Language of instruction: Czech
Level of course: bachelor
Semester: SS 2018/2019
Name of lecturer: doc. Ing. Jiří Votava, Ph.D. (examiner, instructor, lecturer, supervisor)
Prerequisites: to study at faculty ICV
Aims of the course:
In this course, students will acquire 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.Introduction. Physico-metalurgical principles of casting (allowance 0/0)
a.Construction materials for castings
b.Modelling facilities. Forming materials. Forming
c.Smelting. Casting
d.Modern casting technologies. Cleaning of castings. Use of castings in technical practice

2.Physico-metalurgical principles of metal forming. Basic forming technologies (allowance 0/0)
a.Classification of materials. Hot volume forming
b.Cold volume forming. Shearing and metal sheet drawing
c.Application of formend parts in technical practice

3.Jointing dividing. Riveting (allowance 0/0)
4.Physico-metalurgical principles of fusion welding. Flame welding (allowance 0/0)
a.Arc welding. Resistance welding
b.Filler materials, welding gases

5.Soldering and adhesive bonding (allowance 0/0)
Learning outcomes and competences:
Generic competences:
-Ability to apply knowledge
-Ability to solve problems
-Ability to work independently
-Capacity to adapt to new situations
-Capacity to learn
-General knowledge
-Professional knowledge
-Quality concept awareness

Specific competences:
-Ability to assess technical parameters of machines and equipment
-Ability to assess the suitability of the proposed material, corrosion protection
-Ability to assess the suitability of the technology of manufacturing a particular machine component
-Ability to design and display machine parts
-Ability to design a technology of production and technology of renovation of machine parts made from specific material (eg, forming)
-Analyze the stress components and application materials.
-General knowledge of material engineering
-Implementing basic metrological operations for providing determinant parms of objective machines and machinery equipment
-Knowledge of applied metrology
-Student knows the basics of the technic drawing

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 attendanceCombined form
Direct teaching
     lecture28 h0 h
     practice28 h0 h
     consultation0 h18 h
     preparation for exam35 h56 h
     preparation for regular assessment14 h18 h
     elaboration and execution of projects35 h48 h
Total140 h140 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
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
RQAMBROŽ, O.Technologie svařováníOstravaZEROSS200580-85771-81-0
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
RQMINAŘÍK, V.Obloukové svařováníPrahaScientia200380-7183-285-5


Last modification made by Josef Schmied, DiS. on 12/13/2018.

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