Course syllabus

Course-PM

MTT090 MTT090 Polymer processing and properties lp1 HT20 (7.5 hp)

Course is offered by the department of Industrial and Materials Science

Contact details

• examiner
  • Roland Kádár (RK), Associate Professor, roland.kadar@chalmers.se
    https://www.chalmers.se/en/staff/Pages/roland-kadar.aspx#ContentTabBox3 

• teaching assistants / lab instructors
  • Sajjad Pashazadeh* (SP), PhD student, sajjad@chalmers.se 
  • Sylwia Wojno (SW), PhD student,  wojno@chalmers.se  
  • Hengzhi Ruan (HR), PhD student, hengzhi@chalmers.se 
  • Ases Akas Mishra​ (AAM), PhD student, ases@chalmers.se 
  • u.a.
    *Corresponding TA for questions about the labs
• guest lecturers
  • TBA

Course purpose

Polymeric materials remain extensively used in an increasing number of mainstream and advanced applications. Their outstanding versatility in terms of structure, processing and properties make polymeric materials, whether natural or synthetic, ubiquitous and essential for a great number of applications. Fundamental aspects of polymer structure, properties, processing and interrelation thereof is given in this course. The main focus is on thermoplastic polymers, however, rubbers, thermosets and composites are also discussed. A particular feature of the course is a focus on rheological properties, a key aspect for understanding the structure and processing behaviour of polymers. As manufacturing techniques extrusion and injection moulding are emphasised, alongside coating techniques and additive manufacturing. The treatment of the manufacturing processes is based on an in-depth description of the rheological properties of the polymer melts. Overall, the course is medium level polymeric materials course suitable introduction for further in-depth studies, for example within PhD programmes, and is also valuable towards materials engineering (applications) and material development.

Schedule

TimeEdit

For exact time and dates see Zoom meetings.

TBA (to be announced)

 

Course live recording

Live recordings will be uploaded to Canvas.

 

Course literature

Most of the topics are based on:

• [MBB] Principles of Polymer Engineering, N. G. McCrum, C. P. Buckley and C. B. Bucknall, 2nd edition, 1997, Oxford Science Publications, Oxford University Press, ISBN 19 856526 7  https://app.knovel.com/web/toc.v/cid:kpPPEE0023/viewerType:toc/root_slug:principles-polymer-engineering?kpromoter=federation

The polymer processing course relies mainly on 

• Materials Science of Polymers for Engineers by T.A. Osswald and G. Menges (MSPE), 3rd ed., 1997, Hanser Verlag - Chapter 6  http://app.knovel.com/web/toc.v/cid:kpMSPEE002/viewerType:toc/root_slug:material-science-polymers/url_slug:kt00C1W4Q1 

Handouts for the rheology part in the form of slides. There will be updates here too.

Course design

The following activities are included in the course:

1. Lectures and tutorials - online + recordings
2. Labs (compulsory) - in-person
3. Project (compulsory) - online

1. Lectures and tutorials 

TBA

2. Labs

TBA

3. Project

Why Project? Nowadays, through the professional career of engineers and scientists, working both in industry and academia as well as other fields, preparing reports and presentations for different target audiences is a significant part of one’s work routine. You will face this many times: prepare an overview, grasp a developing area, summarize, sketch the background and present some sort of a summary. TTS falls into such categories. Clearly, you will need to find sources (literature). You may ask your lecturer for a hint, but most likely you will decide to proceed on your own. 

The project has two parts: (i) a written report and (ii) a video presentation of the project. 

Groups of max 3-4 students will choose one topic to study. For examples of topics, see the list below, however, feel free to explore preferred subjects. More than one group can deal with a given topic. Let the examiner know which topic you have chosen as well as the members of your group. 

(i) The report should be written in English, should be comprehensive enough for the topic chosen, however it should not exceed 10 pages. The written report should be submitted electronically to the examiner (roland.kadar@chalmers.se) - not later than September 30. You need to start TTS work early. An early-bird submission (before 01/10) is encouraged.

 

The written report should be seen as a high level technical report. Evaluation criteria:

• is the project ‘on track’, clearly organized/structured, formatted and within the requested number of pages?
• is the coverage of the application comprehensive and complete?
• the accuracy of the report
• the originality of the project
• the correct use of literature references.

 

(ii) The access of the large public to easy ways to large exposure of self made multimedia video clips has exploded in the last decade through platforms such as youtube. For the scientists and engineers especially, the key is the realization of an effective and easy to understand video. This is not an easy task. A key skill that needs to be developed is thus to convert a complex scientific and engineering application into visual form. At the same time, the project aims to give you exposure to new forms of digital media and software, and finally, to have fun and be creative.

The video presentations should be regarded as a low level technical report, meaning that its main goal will be to explain your project to a non-specialized audience. You will premiere your video presentation summary during a presentations session (on October 5, see timetable). The video presentation should be not longer than 10 minutes. Evaluation criteria:

• does the video presentation clearly describe the project for the intended audience?
• how do the project members respond to questions regarding their application?
• originality of the video
• accuracy of the content
• video realization quality.

Think freely, compromise and be positive to build up your application. Preferably form mixed international teams. The report carries max. 5p towards the 50p written examination, and must not be rejected.

Examples of topics (feel free to chose any other related topic of interest)

• Poly(lactid acid)- a polymer from renewable resources
• Liquid crystalline polymers-super polymers for today and tomorrow
• Thermoplastic elastomers-the end for natural rubber?
• Synthetic paper – worth bothering about?
• Sealing of bottles-cork or plastics?
• Bank notes- polymers or paper?
• Gas-assisted injection moulding
• Sandwich technology- making polymer components even lighter!
• Calendering of polymers – operation and properties
• Polymers containing grahphene- a new generation of composites?
• My favourite engineering plastic!
• Carbon fibres in automotives
• Green composites in automotives

Groups must be formed and the topic chosen by Friday, September 3, 2021. Register the project by sending it to roland.kadar@chalmers.se by the deadline. Include a list of the group project members and the chosen topic. 

Changes made since the last occasion

2020: lectures and group presentations will be made through Zoom. More detail at the course start.

Learning objectives and syllabus

Learning objectives:

• understand the fundamental properties of polymeric materials.
• understand how material fundamental properties can be used through processing in order to obtain suitable properties
• acquire an overview of relevant processes for design with polymeric materials.

Examination form

All topics covered in the lectures and tutorials are included in the exam, with the exception of the guest lectures.

An example of past examination question papers (gammal tenta) with solutions will be available. The examination question paper will contain approximately 10 questions. Max score is 45 p. Points from TTS (project) up to 5, are added. Swedish grades will be issued as follows: 0-24p (fail); 25-34p (3); 35-44p (4); 45-55p (5).

Allowed into examination venue are mathematical tables and approved (by Chalmers) type calculators.