Nov 14, 2019   11:27 p.m. Irma
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Course syllabus NAM101_6B - Materials Science I (MTF - WS 2019/2020)


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University: Slovak University of Technology in Bratislava
Faculty: Faculty of Materials Science and Technology in Trnava
Course unit code: NAM101_6B
Course unit title: Materials Science I
Mode of delivery, planned learning activities and teaching methods:
lecture2 hours weekly / 26 hours per semester of study (on-site method)
26 hours per semester of study (combined method)
seminar1 hour weekly / 13 hours per semester of study (on-site method)
13 hours per semester of study (combined method)
laboratory/construction practice1 hour weekly / 13 hours per semester of study (on-site method)
13 hours per semester of study (combined method)

 
Credits allocated: 6
 
Recommended semester/trimester: Applied Informatics and Automation in Industry - bachelor (compulsory), 1. semester
Applied Informatics and Automation in Industry - bachelor (compulsory), 1. semester
Computer-Aided Production Technologies - bachelor (compulsory), 1. semester
Computer-Aided Production Technologies - bachelor (compulsory), 1. semester
Industrial Management - bachelor (compulsory), 1. semester
Industrial Management - bachelor (compulsory), 1. semester
Integrated Safety - bachelor (compulsory), 1. semester
Integrated Safety - bachelor (compulsory), 1. semester
Manufacturing Technologies - bachelor (compulsory), 1. semester
Manufacturing Technologies - bachelor (compulsory), 1. semester
Materials Engineering - bachelor (compulsory), 1. semester
Materials Engineering - bachelor (compulsory), 1. semester
Mechatronics in Technological Equipment - bachelor (compulsory), 1. semester
Mechatronics in Technological Equipment - bachelor (compulsory), 1. semester
Personnel Policy in Industrial Plant - bachelor (compulsory), 1. semester
Personnel Policy in Industrial Plant - bachelor (compulsory), 1. semester
Production Devices and Systems - bachelor (compulsory), 1. semester
Production Devices and Systems - bachelor (compulsory), 1. semester
Production Technologies and Production Management - bachelor (compulsory), 1. semester
Production Technologies and Production Management - bachelor (compulsory), 1. semester
Quality of Production - bachelor (compulsory), 1. semester
Quality of Production - bachelor (compulsory), 1. semester
Level of study: 1.
Prerequisites for registration: none
 
Assesment methods:
Evaluation of student was realised in two stages:
1. Preparation of writen works in usefull form and quality, positive evaluated of two electronical tests, 100 % active presence on exercises, readiness to exercise themes, then can be obtain maximum 20 % of exam, but at least 5 % of exam.
2. Exam - 10-minute writen test and electronical test.
Result of exam is sum of percentages obtained in individual steps, and is evaluated as follow: 92 ÷ 100 (A), 83 ÷ 91 % (B), 74 ÷ 82 % (C), 65 ÷ 73 % (D), 56 ÷ 64 % (E), below 56 % (FX), while is need to before electronical testing prepare minimally 3 from 4 basic questions.
 
Learning outcomes of the course unit:
The result of education is to teach students about the types of used materials, their internal structure and properties, that can be verified.
The student has knowledge of the internal structure of solid materials (metal and non-metallic materials). It has knowledge of diffusion in materials, the solidification of materials and their influence on the binary diagrams. Has an overview of ferrous alloys and non-ferrous metals and materials based on ceramics, glasses and plastics. It has a knowledge about basics phase transformations realised the material and possibilities to influence the structure and properties of materials and the effects of heat or deformation. It is familiar with basic mechanical and non-destructive testing of materials, purpose and importance of their implementation.
 
Course contents:
Construction of materials. Defects in materials. Deformation of materials and annealing of deformed material, slip planes, brittle fracture, tough fracture, degradation influences on materials.
Metallic systems. Diffusion. Solidification. Binary diagrams.
Iron alloys. Alloing elements and its influence. Types of iron alloys and designation systems for steels. Theory of heat treatment (austenitisation, homogenisation, grains growth), TTT and CCT transformation diagrams. Hardening, tempering, annealing, thermo-mechanical treatment, chemico-thermal treatment.
Non-ferrous metals and its alloys. Plastic materials. Ceramics. Glasses. Special materials.
Mechanical and defectoscopic tests.
 
Recommended or required reading:
Basic:
MORAVČÍK, R. -- HUDÁKOVÁ, M. -- HAZLINGER, M. -- MARTINKOVIČ, M. -- ČIČKA, R. Náuka o materiáloch I. Trnava : AlumniPress, 2010. 249 p. ISBN 978-80-8096-123-7.
MORAVČÍK, R. -- HUDÁKOVÁ, M. -- ČERNIČKOVÁ, I. -- BOŠÁK, O. Náuka o materiáloch I. Návody na cvičenia. Trnava: AlumniPress, 2017. 198 p. ISBN 978-80-8096-242-5.
MARTINKOVIČ, M. -- RÍZEKOVÁ TRNKOVÁ, L. Náuka o materiáloch I.: Návody na cvičenia. Trnava : AlumniPress, 2009. 183 p. ISBN 978-80-8096-0797.
MORAVČÍK, R. -- ČIČKA, R. -- HAZLINGER, M. -- HVIZDOŠ, P. -- JANOVEC, J. Úvod do materiálového inžinierstva I. Bratislava : Nakladateľstvo STU, 2015. 374 p. ISBN 978-80-227-4405-8.
PLUHAŘ, J. Nauka o materiálech. Praha : SNTL, 1989. 552 p.
MARTINEC, Ľ. -- ŠIMKOVIČ, M. Náuka o materiáloch. Bratislava: STU, 1997. 232 p. ISBN 80-227-1008-3.
MARTINEC, L. -- ŠIMKOVIČ, M. Náuka o materiáloch. Bratislava: STU, 1997. 200 p. ISBN 80-227-1599-9.
MARTINEC, Ľ. Náuka o materiáloch I Návody na cvičenia. Bratislava: Alfa, 1984. 112 p. ISBN 80-227-1599-9.
PULC, V. -- HRNČIAR, V. -- GONDÁR, E. Náuka o materiáli. Bratislava : STU v Bratislave, 2008. 333 p. ISBN 978-80-227-2847-8.
HRNČIAR, V. Materials Science. Bratislava : STU v Bratislave, 2003. 188 p. ISBN 80-227-1834-3.
SKOČOVSKÝ, P. -- BOKŮVKA, O. -- KONEČNÁ, R. -- TILLOVÁ, E. Náuka o materiáli pre odbory strojnícke. Žilina : Žilinská univerzita, 2006. 349 p. ISBN 80-8070-593-3.
PTÁČEK, L. Nauka o materiálu I. Brno : CERM, 2003. 516 p. ISBN 80-7204-283-1.
PTÁČEK, L. Nauka o materiálu II. Brno : CERM, 2002. 392 p. ISBN 80-7204-248-3.
ASHBY, M. -- JOHNSON, K. Materials and Design. Oxford: Butterworth Heinemann Elsevier, 2002. 336 p. ISBN 978-0-7506-5554-5.
SKOČOVSKÝ, P. Konštrukčné materiály. Žilina : Žilinská univerzita, 2000. 246 p. ISBN 80-7100-608-4.
MORAVČÍK, R. -- HAZLINGER, M. Náuka o materiáloch II. Trnava : AlumniPress, 2009. 243 p. ISBN 978-80-8096-081-0.

Recommended:
prednášky v elektronickej podobe v AIS

 
Language of instruction: slovak or english
 
Notes:
 
Courses evaluation:
Assessed students in total: 8088

ABCDEFX
5,8 %7,9 %15,1 %22,1 %38,5 %10,6 %
Name of lecturer(s): Ing. Paulína Babincová, PhD. (instructor) - slovak
Ing. Katarína Bártová, PhD. (instructor) - slovak
Ing. Jana Bohovičová, PhD. (instructor) - slovak, english
Ing. Libor Ďuriška, PhD. (examiner, instructor, lecturer, tutor) - slovak, english
Ing. Zuzana Gabalcová, PhD. (instructor) - slovak, english
doc. Ing. Mária Hudáková, PhD. (examiner, instructor, lecturer) - slovak
doc. Ing. Roman Moravčík, PhD. (examiner, instructor, lecturer, person responsible for course, tutor) - slovak, english
Ing. Matej Pašák, PhD. (instructor) - slovak
Ing. Jana Ptačinová, PhD. (instructor) - slovak
doc. Ing. Lýdia Rízeková Trnková, PhD. (instructor) - slovak, english
Ing. Daniela Špániková (examiner, instructor, lecturer, tutor) - slovak
 
Last modification: 20. 12. 2018
Supervisor: doc. Ing. Roman Moravčík, PhD. and programme supervisor


Last modification made by Bc. Jana Rohaľová on 12/20/2018.

Type of output: