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14IIM32 - Composite materials

Course specification
Course titleComposite materials
Acronym14IIM32
Study programme
Module
Lecturer (for classes)
Lecturer/Associate (for practice)
    Lecturer/Associate (for OTC)
      ESPB5.0Status
      ConditionMetal materials, ceramic materials, polymer materials Облик условљености
      The goalThe goal of this subject to teach to students the correlation among structure, physical - mechanical propreties, synthesis and production and functional performances of all classes of composite materials at all levels of structure from nano to micro level in different applications.
      The outcomeAfter the completion of this course the student will be capable to: Design the composition and assembly of composite as well as the process of preparation of composite having specific performances of physical-mechanical properties for specified application. Make optimal choise of composite material for production of composites for specific application Competence for analysis of mechanisms of destruction of composite and enable the measures for product integrity in different exploitation conditions.
      Contents
      Contents of lectures1. Introduction 2. Fillers and reinforcements in composite mateirals 3. Matrix in composite materials 4. Coupling media and funcionalisation of interface in composite materials 5. Polymer matrix composite materials 6. Ceramic matrix composite materials 7. Metal matrix composite materials 8. Carbon-carbon composites 9. Functional composite materials 10. Micromechanics of composites, use of MATLAB in calculation 11. Destruction and failiour of composites, use of MATLAB in calculation 12. Design of composite, use of MATLAB in calculation 13. Principles of composite selection using quantitative models 14. Contemporary trends in development of new composite materials
      Contents of exercises
      Literature
      1. 1. R.Aleksić, Kompozitni materijali, beleške sa predavanja, CD, TMF, 2013. (Original title)
      2. 2. R. Aleksić, Kompozitni materijali, Zbirka zadataka, CD, TMF, 2013. (Original title)
      3. 3. K. K Shawla, Composite Materials Science and Engineering, Springer Science, New York, 2012 , ISBN: 978-0-387-74364-6 (Original title)
      4. G. Z. Voyiadjis, P. I. Kattan, Mechanics of Composite Materials with MATLAB, Springer-Verlag Berlin Heidelberg, 2005., ISBN 978-3-540-27710-1 (Original title)
      5. 5. D. Gay, S.V. Hoa, S. W. Tsa, Composite Materials: Design And Applications, CRC Press, Washington, D.C., 2003., ISBN 1-58716-084-6 (Original title)
      Number of hours per week during the semester/trimester/year
      LecturesExercisesOTCStudy and ResearchOther classes
      31
      Methods of teachingLectures with PP presentations and real problems calculations and video animation.
      Knowledge score (maximum points 100)
      Pre obligationsPointsFinal examPoints
      Activites during lecturesTest paper
      Practical lessons20Oral examination60
      Projects
      Colloquia20
      Seminars