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22MNM - Material science

Course specification
Course titleMaterial science
Acronym22MNM
Study programme
Module
Lecturer (for classes)
Lecturer/Associate (for practice)
Lecturer/Associate (for OTC)
    ESPB5.0Status
    ConditionОблик условљености
    The goalStudents will adopt principles of materials science as multidisciplinary science with the aim to establish interdependence between structure and properties of all classes of engineering materia
    The outcomehe student adopts the capability to recognize, connect and apply existing relations among structure, thermodynamic and kinetic parameters and properties of materials. By accomplishing the course students acquires theoretical basis about interconnection between structure and properties of all classes of materials for further studies in the field of materials science and engineering
    Contents
    Contents of lectures1. Basic principles of materials science ; 2. Crystal, non crystalline and amorphous structure of materials, x ray diffraction ; 3. Basics of crystallography, energy of crystal lattice. ; 4. Point defects of crystal structure of materials ; 5. Diffusion in materials ; 6. Linear and surface defects in crystal structure of materials ; 7. Micro plasticity of materials ; 8. Phase diagrams and phase equilibrium based on Gibbs free energy functions ; 9. Phase transformation in materials: homogeneous and heterogeneous nucleation, non steady state transformations ; 10. Mechanical properties of materials: elastic properties, visco elastic properties, creep, fatigue ; 11. Heat properties of materials ; 12. Electric and electronic properties of materials ; 13. Optical properties of materials ; 14. Magnetic properties of materials
    Contents of exercisesCase studies, Video animation and presentation
    Literature
    1. V. Radojevic, R. Jancic HeinemannLecture notes CD, TMF 2015
    2. D. R. Askeland, P. P. Fulay, W. J. Wright, The Science and Engeeniring of Materials, 6th edition, Cengage Learning., Stamford, CT, 2011, ISBN-13: 978-0-495-29602-7
    3. W.D. Callister, Jr., D. G. Rethwisch., Materials Science and Engineering: An Introduction, 8-th edition, John Willey&Sons, New York, 2010, ISBN 978-0-470-41997-7.
    Number of hours per week during the semester/trimester/year
    LecturesExercisesOTCStudy and ResearchOther classes
    31
    Methods of teachingLectures, case studies, vdeo animation and presentation of seminar work
    Knowledge score (maximum points 100)
    Pre obligationsPointsFinal examPoints
    Activites during lecturesTest paper
    Practical lessonsOral examination60
    Projects
    Colloquia20
    Seminars20