SylabUZ
| Course name | Test Methods for Biomaterials |
| Course ID | 06.9-WM-ER-IB-38_18 |
| Faculty | Faculty of Mechanical Engineering |
| Field of study | WM - oferta ERASMUS |
| Education profile | - |
| Level of studies | Erasmus programme |
| Beginning semester | winter term 2021/2022 |
| Semester | 1 |
| ECTS credits to win | 4 |
| Course type | obligatory |
| Teaching language | english |
| Author of syllabus |
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| The class form | Hours per semester (full-time) | Hours per week (full-time) | Hours per semester (part-time) | Hours per week (part-time) | Form of assignment |
| Lecture | 15 | 1 | - | - | Exam |
| Project | 45 | 3 | - | - | Credit with grade |
The aim of the course is to acquire skills and competencies in the practical use of chemical and electrochemical methods of surface layer formation and instrumental testing methods of their properties and degradation in tissue environment.
Knowledge of chemistry, electrochemistry and biomaterials.
Lecture and Laboratory: Electrochemical testing methods, formation conditions and properties of surface layer and degradation of biomaterials (corrosion testing of implants, electropolishing, passivation, anodizing, formation of nanostructured layers). Methods of microstructural examinations (optical, scanning electron SEM and transmission TEM microscopy, X-ray diffraction XRD). Properties of biomaterial/tissue interface (hydrophilic-hydrophobic properties, zeta potential, photoelectron spectroscopy: XPS, SIMS, atomic force microscopy – AFM, tunneling microscopy, infrared spectroscopy FTIR-ATR), testing of biomaterials in simulated biological environment, chemical investigation of extracts, degradation in vitro and in vivo tests. Procedures and standards of biomaterials engineering
Conventional lectures with audiovisual aids. Working with professional literature. Individual and team work on laboratory exercises.
| Outcome description | Outcome symbols | Methods of verification | The class form |
The written exam A passing grade in the lecture part of the course is determined by written responses to questions about the theoretical aspects of the subject.
Project: Grade Grade based on accuracy of selection techniques and methods the student uses and the quality of the project.
1. Z. Galus „Teoretyczne podstawy elektroanalizy chemicznej”, PWN Warszawa 1977.
2. J. Koryta, J. Dvorak, V. Bohackowa, „Elektrochemia”, PWN, Warszawa 1980.
3. A.J.Bard, L.R. Faulkner, „Electrochemical Methods”, Wiley, New York 1980 (or later editions).
4. L. Dobrzański, A. Hajduczek, Mikroskopia optyczna i elektronowa, WNT, 1987.
5. A. Oleś, Metody doświadczalne fizyki ciała stałego, WNT, 1993.
6. J. Przedmojski, Rentgenowskie metody badawcze w inżynierii materiałowej, WNT 1990.
7. Z. Bojarski, E. Łągiewka, Rentgenowska analiza strukturalna, PWN 1988, Wyd.
8. Joseph Wang, „Analytical Electrochemistry” 1994 VCH Publisher, Inc, New York, Cambridge.
Modified by dr Katarzyna Skrzypek (last modification: 29-04-2021 11:00)
