CB01 Posseir i comprendre coneixements que aportin una base o oportunitat de ser originals en el desenvolupament i / o aplicació d'idees, sovint en un context de recerca CT04 Treballar en equip CE05 Seleccionar i aplicar tècniques experimentals per a l'obtenció de paràmetres associats al comportament estructural interpretant i integrant de manera crítica els resultats obtinguts.
1. Elastic properties of orthotropic materials 2. Micromechanics of composite materials 3. Laminate theory 4. Hygrothermal effects 5. Failure criteria for composite materials 6. Interlaminar stress and delamination
Tipus d’activitat Hores amb professor Hores sense professor Hores virtuals amb professor Total Anàlisi / estudi de casos 5,00 20,00 0 25,00 Resolució d'exercicis 9,00 15,00 0 24,00 Sessió participativa 12,00 0 0 12,00 Simulacions 4,00 10,00 0 14,00 Total 30,00 45,00 0 75
Barbero, Ever J (cop. 2011 ). Introduction to composite materials design (2nd ed.). Boca Raton: Taylor & Francis. Catàleg Barbero, Ever J (cop. 1998 ). Introduction to composite materials design . London: Taylor & Francis. Catàleg Barbero, Ever J (cop. 2008 ). Finite element analysis of composite materials . Boca Raton [etc.]: CRC Pres Taylor & Francis Group. Catàleg Barbero, Ever J. (2013). Finite element analysis of composite materials with Abaqus. Boca Raton, FL: Taylor & Francis. Catàleg Herakovich, Carl T (1998 ). Mechanics of fibrous composites . New York [etc.]: Wiley & Sons. Catàleg Mallick, P.K (1993 ). Fiber-reinforced composites : materials, manufacturing, and design (2nd ed., rev. and exp.). New York [etc.]: Dekker. Catàleg Matthews, F.L (1994 ). Composite materials : engineering and science . London [etc.]: Chapman & Hall. Catàleg
Activitats d'avaluació: Descripció de l'activitat Avaluació de l'activitat % Recuperable Practical computer sessions Report including the description of the solution, analysis of the results and conclusions. It will be especially evaluated the correctness of the solution and the interpretation of the results and conclusions. 20 No Practical exercises Report including the description of the solution, analysis of the results and conclusions. It will be especially evaluated the correctness of the solution and the interpretation of the results and conclusions. 40 No Case studies Report including the description of the solution, analysis of the results and conclusions. It will be especially evaluated the correctness of the solution and the interpretation of the results and conclusions. 40 No
The final mark of the course will be determined through the evaluation of the reports of the exercises delivered during the course by the students according to: FM = Final Mark PE = Practical exercises CS = Case studies S = Simulations FM= 0.4*PE + 0.3*CS + 0.3*S For a given category (i.e. PE, CS and S), the student will have to present individual reports or Finite Element models covering all the contents of the course. The mark for each category (PE, CS and S) is the mean of the individual reports’ marks. Students will be asked to deliver different reports or FE models based on the different course units and these units will be evaluated, corrected, marked and returned to the student to improve the assimilation of the different concepts of the course. The students will not have the opportunity to resubmit exercises that have been marked as not correct. To pass the course, a minimum mark of 5 over 10 is needed. Criteris específics de la nota «No Presentat»:Only those students that do not deliver any of the suggested exercises will receive a Not Presented (NP) mark Avaluació única:The student will be asked to prepare a project report on the design of a composite part using the Finite Element Method. Requisits mínims per aprovar:The minimum mark to pass the course is 5.0 over 10
There will be specified weekly time frames for tutorships (mainly on-site but on-line will be also possible). E-mail can be also used to solve questions or doubts and set tutorship appointments out of the specified times frames.