4 ECTS credits
110 u studietijd

Aanbieding 1 met studiegidsnummer 4016477ENR voor alle studenten in het 1e semester met een verdiepend master niveau.

Semester
1e semester
Inschrijving onder examencontract
Niet mogelijk
Beoordelingsvoet
Beoordeling (0 tot 20)
2e zittijd mogelijk
Ja
Inschrijvingsvereisten
Registration for Surface treatment: Processing and Analysis is allowed if one is registered for or has successfully accomplished Microstructural Design of Metals.
Onderwijstaal
Engels
Onder samenwerkingsakkoord
Onder interuniversitair akkoord mbt. opleiding
Faculteit
Faculteit Ingenieurswetenschappen
Verantwoordelijke vakgroep
Materialen & chemie
Externe partnerinstelling(en)
Université libre de Bruxelles
Onderwijsteam
Iris De Graeve (titularis)
Tom Hauffman
Marie-Paule Delplancke
Onderdelen en contacturen
24 contacturen Hoorcollege
24 contacturen Werkvormen en Praktische Oef.
Inhoud

There are two parts in the lecture sessions: surface analysis methods by Prof. Tom Hauffman, and Surface treatments by Prof. Iris De Graeve and Prof. Marie-Paule Delplancke.

In the surface analysis part the interaction between primary excitation beams (photon, electron, ion) and the material is considered and many state-of-the-art surface analysis techniques are described and illustrated. In addition the principle of local probe methods such as Atomic Force Microscopy is explained. During the practical part of this course the students become more familiar with some of these methods.

In the part about surface treatments it is explained to the student how specific surface properties can be obtained. Surface processing can involve processes in which only the surface morphology (polishing, graining) is changed as well as (electro)chemical processes, converting / covering the surface into / with a different chemical layer which can be inorganic, organic, metallic or have a hybrid chemistry. The mechanisms of these processes are discussed in detail, and many processes are illustrated based on real case studies form industrial research. Also some processes are discussed in detail in relation to the reactor used.

In the practical part of this course a research project is defined. The students work in groups of about 4 students on a topic in a real ongoing research project. The groups are supervised by the PhD or postdoc researchers. The research is presented in a journal paper.

Studiemateriaal
Digitaal cursusmateriaal (Vereist) : Slides
Bijkomende info

Slides are used during the lectures and uploaded on the learning platform, and research papers and scientific text books are additionally listed for extended background reading.

 

Leerresultaten

Algemene competenties

In the formation of the BRUFACE Master of Sciences in Chemical and Materials Engineering this course can be considered as a class where the student is using the knowledge of other courses about metals, polymers, ceramics and composites, physics, chemistry, reactor technology, nano technology but this time focused on surface technology. The student has to consider also environmental issues of the selected surface processing. Furthermore, many case studies from industrial research projects are discussed, giving the student a flavor of combined academic - industrial R&D. In the part about surface analysis the student also learns about reliable quantification of obtained data. The course is followed by students of different native tongue (VUB, ULB and many international students following the BRUFACE program) and is given in English. As such, it contributes to the development of the communication and language skills of the students. Also these students need to work together as a team for the practical project, aiming at enhancing their social and team skills, as well as  skills in research planning and research ability that allows the research questions to be addressed in an efficient way considering the limits of time and availability of research equipment.

This course contributes to the following learning outcomes:

This course contributes to reaching the following learning objectives.

The Master of Sciences in Chemical and Materials Engineering has in-depth knowledge and understanding of

MA_1   exact sciences with the specificity of their application to engineering

MA_17 an integrated insight in chemical process and materials' technology

MA_18 insight in chemistry as a link between process and materials technology

The Master of Sciences in Chemical and Materials Engineering can

MA_6   correctly report on research or design results in the form of a technical report or in the form of a scientific paper

MA_7   present and defend results in a scientifically sound way, using contemporary communication tools, for a national as well as for an international professional or lay audience

MA_8   collaborate in a (multidisciplinary) team

The Master of Sciences in Chemical and Materials Engineering has

MA_12 a creative, problem-solving, result-driven and evidence-based attitude, aiming at innovation and applicability in industry and society

MA_15 the flexibility and adaptability to work in an international and/or intercultural context

MA_16 an attitude of life-long learning as needed for the future development of his/her career 

Beoordelingsinformatie

De beoordeling bestaat uit volgende opdrachtcategorieën:
Examen Mondeling bepaalt 60% van het eindcijfer

WPO Groepswerk bepaalt 40% van het eindcijfer

Binnen de categorie Examen Mondeling dient men volgende opdrachten af te werken:

  • deel Tom Hauffman met een wegingsfactor 50 en aldus 30% van het totale eindcijfer.
  • deel Iris De Graeve met een wegingsfactor 25 en aldus 15% van het totale eindcijfer.
  • deel Marie-Paule Deplancke met een wegingsfactor 25 en aldus 15% van het totale eindcijfer.

Binnen de categorie WPO Groepswerk dient men volgende opdrachten af te werken:

  • deel groepswerk met een wegingsfactor 100 en aldus 40% van het totale eindcijfer.

Aanvullende info mbt evaluatie

The final score of the course consists of the exam score for 60 % and the practical work score for 40 %. The oral exam with the three professors (exam score counts for 60 % of the final score; the exam score is the average of the three scores with the three professors, taking a minimum score of 7/20 on all three parts into account) and a group work, that receives a combined score (accounting for 40 % of the final score)  based on the individual student contributions and the group score for the paper.

Toegestane onvoldoende
Kijk in het aanvullend OER van je faculteit na of een toegestane onvoldoende mogelijk is voor dit opleidingsonderdeel.

Academische context

Deze aanbieding maakt deel uit van de volgende studieplannen:
Master in de ingenieurswetenschappen: chemie en materialen: profiel procestechnologie
Master in de ingenieurswetenschappen: chemie en materialen: profiel materialen
Master in de ingenieurswetenschappen: biomedische ingenieurstechnieken: Standaard traject
Master of Biomedical Engineering: Startplan (enkel aangeboden in het Engels)
Master of Biomedical Engineering: Profiel Radiation Physics (enkel aangeboden in het Engels)
Master of Biomedical Engineering: Profiel Biomechanics and Biomaterials (enkel aangeboden in het Engels)
Master of Biomedical Engineering: Profiel Sensors and Medical Devices (enkel aangeboden in het Engels)
Master of Biomedical Engineering: Profiel Neuro-Engineering (enkel aangeboden in het Engels)
Master of Biomedical Engineering: Standaard traject (NIEUW) (enkel aangeboden in het Engels)
Master of Chemical and Materials Engineering: Profile Materials (enkel aangeboden in het Engels)
Master of Chemical and Materials Engineering: Profile Process Technology (enkel aangeboden in het Engels)