This biannual learning unit is not being organized in 2024-2025 !
Teacher(s)
Language
English
> French-friendly
> French-friendly
Prerequisites
The course requires basic knowledge of the physics and chemistry of polymers as given, for example, in the courses LMAPR2019 or LCHM1361.
Main themes
Physical and chemical properties of polymers, environmental and societal issues related to the use of polymers.
More specifically, specific themes will be addressed through a series of debates on cutting-edge topics related to polymers. These topics will be subject to change based on current events. For example, these debates could address the following issues:
- Bio-sourced polymer materials: a sustainable solution?
- Towards greater biodegradability of polymer materials: is this realistic?
- Micro-plastics and oceans: what to do?
- Management of multi-component materials: what are the solutions?
- Advantages and drawbacks of the use of nanoparticles in polymer materials
- Can we do without plastics in agriculture / electronics / packaging / telecommunications / etc.
- Plasticizers - to banish or tolerate?
- Plastic and use of fossil resources - an infernal couple?
- Life is based on macromolecules - why do not we?
More specifically, specific themes will be addressed through a series of debates on cutting-edge topics related to polymers. These topics will be subject to change based on current events. For example, these debates could address the following issues:
- Bio-sourced polymer materials: a sustainable solution?
- Towards greater biodegradability of polymer materials: is this realistic?
- Micro-plastics and oceans: what to do?
- Management of multi-component materials: what are the solutions?
- Advantages and drawbacks of the use of nanoparticles in polymer materials
- Can we do without plastics in agriculture / electronics / packaging / telecommunications / etc.
- Plasticizers - to banish or tolerate?
- Plastic and use of fossil resources - an infernal couple?
- Life is based on macromolecules - why do not we?
Learning outcomes
At the end of this learning unit, the student is able to : | |
Contribution of the course to the program objectives Axis 1: 1.1, 1.3 To be able to confront different complex and contradictory information, to analyze them critically, and to combine a series of tools, concepts, reasoning to respond in a judicious and well-argued way to the problem. Axis 2: 2.3 Be able to analyze and take into account a set of different criteria (efficiency, quality, safety, carbon footprint, recyclability, alternatives, ...) to determine the relevance of a process. Axis 3: 3.1, 3.3 Document and summarize the state of current knowledge in the field. Synthesize this research work to propose solutions or alternatives to the problem. Axis 4: 4.1, 4.2, 4.3, 4.4 Collectively organize the preparation of debates, be able to defend ideas before other actors from different points of view, organize the work to produce a quality report / video. Axis 5: 5.2, 5.4, 5.6 Argue and convince others, analyze and use technical documents. Axis6: 6.2 Discuss the relevance of a solution by looking beyond technical issues. |
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Content
After a general introduction to the polymer materials landscape, with the participation of experts of the industry or NGOs active in the preservation of the nevironment, the course centers on two specific themes (see list above). Visits of industrial plants may be organized.
Teaching methods
The course will be organized in three teaching modules. The first two modules are concerned with a general theme, for which the students will receive reference supports (scientific articles, press releases, videos and podcasts, reports, expert presentations,...); from this, they will prepare a presentation that will be shared and discussed with the class. In the third module, the students will prepare a video reportage on the use of polymer materials for a specific range of applications, including a general view on this use, advantages and drawbacks of polymers for these applications, and possible solutions to the drawbacks.
Evaluation methods
Students will be continuously evaluated, through their presentations, participation to discussions, and final reportage. The three modules of the course will be graded for 5 points each; a final exam will be organized for the 5 final points of the grade.
The use of generative artifical intelligence is not forbidden for the preparation of the presentations, but it should be indicated to the teachers, done with criticism, and compared to other sources.
If, for one part of the continous evaluation process, a student does not abide to the methodological instructions defined on moodle by the teachers, including the use of online resources and student collaborations, all the continuous evaluation will obtain a grade of 0.
Online resources
The course material will be on Moodle. The course is based on different sources of information: book chapters, scientific articles, articles and press releases, online videos and podcasts, reports, ...
Faculty or entity
Programmes / formations proposant cette unité d'enseignement (UE)
Title of the programme
Sigle
Credits
Prerequisites
Learning outcomes
Master [120] in Chemical and Materials Engineering