CB01 Analitzar situacions complexes i dissenyar estratègies per resoldre-les CB08 Recollir, seleccionar i organitzar informació de manera eficaç CT01 Utilitzar la llengua anglesa CES1 Abstreure, formular i resoldre problemes fonamentals d'enginyeria biomèdica, circumscrits a l'àmbit de la informàtica, l'electrònica i la mecànica CES8 Especificar, dissenyar i avaluar dispositius i aplicacions informàtica per a teràpies biomèdiques CES10 Especificar, dissenyar i avaluar solucions informàtiques integrades per a la gestió dels processos de salut
1. Equilibrium of mechanical and biomechanical systems 2. Kinematics of biomechanical systems 3. Stress analysis 4. Failure criteria 5. Fundamentals of the Finite Element Method 6. Fundamentals in biomaterials 7. Biomaterials. Criteria and description 8. Metallic biomaterials 9. Ceramic biomaterials 10. Polymeric biomaterials
Tipus d’activitat Hores amb professor Hores sense professor Hores virtuals amb professor Total Anàlisi / estudi de casos 32,00 33,00 0 65,00 Prova d'avaluació 4,00 30,00 0 34,00 Resolució d'exercicis 12,00 18,00 0 30,00 Sessió pràctica 6,00 4,00 0 10,00 Treball en equip 1,00 10,00 0 11,00 Total 55,00 95,00 0 150
Budynas, Richard G (2012). Diseño en ingeniería mecánica de Shigley (9ª ed.). México [etc.]: McGraw-Hill. Catàleg Nihat Özkaya, Margareta Nordin, David Goldsheyder, Dawn Leger. (2016). Fundamentals of Biomechanics:Equilibrium, Motion, and Deformation. Springer. Catàleg J. Hamill, K.M. Knutzen, T.R. Derrick. (2014). Biomechanical Basis of Human Movement.. Wolters Kluwer. Catàleg Guelcher, Scott A (2006). An Introduction to biomaterials. Boca Raton, [etc.]: CRC Press. Catàleg King, Paul H. (2009). Design of biomedical devices and systems (2nd ed.). Boca Raton: CRC Press. Catàleg Ma, Peter X (2006). Scaffolding in tissue engineering. Boca Raton [etc.]: Taylor & Francis. Catàleg Hench, L. L. (2005). Biomaterials, artificial organs and tissue engineering /. Cambridge: Woodhead. Catàleg
Activitats d'avaluació: Descripció de l'activitat Avaluació de l'activitat % Recuperable Problem Solving Sessions (1st semester) Research done. Clarity of the exposition. 5 No Mechanics: Finite Element Simulations (1st semester). Solution and analysis of several situations in biomechanics/bioengineerings: joints, prostheses, bones, tissues,etc Goodness of solution. Clarity of the reporting. 15 No Mechanics: Final Exam (1st semester) Solution development. Goodness of solution. Clarity of reporting. 30 No Biomaterials: Laboratory practicum (2nd semester) Capacity to fabricate a simple biomaterial. Performance of characterization. The evaluation will be a composition of the validation of the student in the laboratory and the quality of the report of the activities 10 No Biomaterials: Final Exam (2nd semester) Solution development. Goodness of solution. Clarity of reporting. 30 No Collaborative work with a final exposition in the room. The student will receive a topic in the field of biomaterials and must perform a bibliographic search and an collaborative exposition together with the other members of the working group The final qualification of this activity will be a composition of different factors: collaborative and individual such as quality of the bibliographic research, quality of the presentation, skill during discussion and active performance 10 No
Evaluation activities will be face-to-face. Every evaluation activity will be focused on the independent development of the student to solve problematic situation characterized by a human need. Creativity based on knowledge will be considered mandatory to get over each activity. Criteris específics de la nota «No Presentat»: Every student MUST attend every evaluation activity. NOT PRESENTED will be the qualification if any evaluation activity is lost. In the case of global evaluation, the studient will have NOT PRESENTED qualification is he/she is not presented in the final exam. Avaluació única: Global evaluation including both semesters: At the end of the second semester there will be a single exam including mechanics as well as biomaterials. This exam will be recoverable. The percentage of this exam will represent 100% of the qualification. The student must infom to the professors who have about the decision to use such evaluation methodology. This desicion must be informed before a deadline that will be published at the beginning of the course. Requisits mínims per aprovar: To be considered as PASSED, the student should reach 5 over 10 grade in the global qualification. Moreover, there are two final exams (one each semester) that are not recoverable. No minimum grade will be needed to reach average qualification.