Analysis of Machine-part Failures (FSI-GA0-K)

Academic year 2020/2021
Supervisor: prof. Ing. Rudolf Foret, CSc.  
Supervising institute: ÚMVI all courses guaranted by this institute
Teaching language: Czech
Aims of the course unit:
The objective of the course is to make students familiar with problems of the degradation of materials and with methods for assessing the causes of machine part failures on such a level that they are able to solve the respective problem individually or in cooperation with specialized workplaces.
Learning outcomes and competences:
Students learn to regard materials as chemically and structurally heterogeneous systems, whose behaviour in real operation conditions is influenced exactly by these heterogeneities. The methodology used in seeking the causes of machine part failures will enable students to solve these problems in connection with the interplay of heterogeneous material, type of loading, and action of ambient environment.
Prerequisites:
The basic knowledge in the field of materials engineering on the level of introductory courses in Bachelor degree studies. In-depth knowledge of limit states, in particular the problems of testing mechanical properties and failure mechanisms. General orientation in the area of problems of strength calculations of machine parts.
Course contents:
In the introductory part of the course, students are familiarized with the fundamental mechanisms of production and operation degradation in metallic materials used in engineering. The knowledge obtained will enable students to determine limit states more accurately, to use materials more effectively and to give a qualified appraisal of failure causes. Students will also be made familiar with methods for determining the causes of defects in machine parts, using specific examples taken over from the literature and from the lecturer´s practical experience (e.g. automobile and aircraft technologies, power engineering facilities, pressure vessels, production machines, etc.). As an integral part of the course, additional information is provided on the most frequently used experimental techniques (chemical analyses, inclusive of microanalysis, metallography, and fractography).
Teaching methods and criteria:
The course is taught through lectures explaining the basic principles and theory of the discipline.
Assesment methods and criteria linked to learning outcomes:
Students are awarded for the course-unit credit on the basis of their individually prepared presentation and subsequent discussion (examinee and their colleagues, lecturer) on the topic delivered. Students choose presentation topics from handbooks, workshop proceedings or journals (in English or German) provided for this purpose.
Controlled participation in lessons:
There are no practical exercises, the only way of assessment is the "defence" of an individually prepared presentation.
Type of course unit:
    Guided consultation in combined form of studies  1 × 9 hrs. compulsory                  
    Guided consultation  1 × 17 hrs. optionally                  
Course curriculum:
    Guided consultation in combined form of studies 1. Experimental methods most frequently used in analyses of the causes of failures (metallography - light and TEM microscopy, fractography - macro and micro, inclusive of REM, local microanalysis - EDS, WDS, AES).
2. Degradation of metallic materials in the course of production (metallurgy, welding, metal-forming, machining).
3.Chemical and related structural heterogeneity of metallic materials.
4. Examples of degradation processes in the course of operation (local types of corrosion, corrosion cracking, hydrogen embrittlement, radiation embrittlement, wear).
5. Methodology for assessing the causes of machine part failures, practical demonstrations.
6. Student presentations (see "Exam Form..."), practical demonstrations.
    Guided consultation 1. Experimental methods most frequently used in analyses of the causes of failures (metallography - light and TEM microscopy, fractography - macro and micro, inclusive of REM, local microanalysis - EDS, WDS, AES).
2. Degradation of metallic materials in the course of production (metallurgy, welding, metal-forming, machining).
3.Chemical and related structural heterogeneity of metallic materials.
4. Examples of degradation processes in the course of operation (local types of corrosion, corrosion cracking, hydrogen embrittlement, radiation embrittlement, wear).
5. Methodology for assessing the causes of machine part failures, practical demonstrations.
6. Student presentations (see "Exam Form..."), practical demonstrations.
Literature - fundamental:
1. Group of authors: Handbook of case histories in failure analysis Vol. 1, 2, , 0
2. Group of authors: Failure analysis and prevention. ASM Handbook, , 0
3. BERK, J., Systems Failure Analysis, ASM Internationals: OH 2009, 214 p.
Literature - recommended:
1. J. Koutský, F.Jandoš, V.Karel: Fractures in steel parts (in Czech), 0
2. B.Strnadel: Materials science - Structural materials and their degradation processes (in Czech), , 0
3. BERK, J., Systems Failure Analysis, ASM Internationals: OH 2009, 214 p.
The study programmes with the given course:
Programme Study form Branch Spec. Final classification   Course-unit credits     Obligation     Level     Year     Semester  
M2I-K combined study M-KSB Quality, Reliability and Safety -- Ex 4 Compulsory 2 2 W