Polymer processing and recycling
Informacje ogólne
Kod przedmiotu: | 0600-SP/W-EN-PPR |
Kod Erasmus / ISCED: |
13.3
|
Nazwa przedmiotu: | Polymer processing and recycling |
Jednostka: | Wydział Chemii |
Grupy: |
Przedmioty ogólnouniwersyteckie Przedmioty ogólnouniwersyteckie - Wydział chemii |
Punkty ECTS i inne: |
3.00
|
Język prowadzenia: | angielski |
Wymagania wstępne: | (tylko po angielsku) At the start of this course the student should have acquired an active knowledge of English, |
Całkowity nakład pracy studenta: | (tylko po angielsku) Contact hours with teacher: 40 hrs - participation in lectures - 5 hrs - participation in laboratory - 25 hrs - consultations - 10 hrs Self-study hours: 45 hrs - preparation for lectures and laboratory - 20 hrs - reading literature- 10 hrs - preparation for examination- 15 hrs Altogether: 85 hrs (3 ECTS) |
Efekty uczenia się - wiedza: | (tylko po angielsku) After finishing the above course students will have the following knowledge: W1 Student has general knowledge about methods of polymers processing – K W W2 Student knows the methods of polymer recycling – K W W3 Student has basic knowledge about systems of colour masurements– K W W4. Student has general knowledge about differences between stretch film and shrink wrap - K W W5. Student knows and understands the methods of thermoforming packaging - K W |
Efekty uczenia się - umiejętności: | (tylko po angielsku) U1 Student is able to safely conduct the experiment according to a recipe K-U U2. Student is able to calculate the colour difference in selected polymer samples K-U U3. Student is able to establish dimensional change of a polymer film or sheet on heating K-U U4. Student is able to perform the particular stages of mechanical recycling K-U U5. The student is able to form packaging with different dimensions using the thermoforming method K-U U6. The student is able to determine the Vicat softening temperature of polymers K-U |
Efekty uczenia się - kompetencje społeczne: | (tylko po angielsku) K1 Student is able to organize work in a laboratory efficiently -K-K0 K2 Student is able to find the problem and solve it – K-K0 K3 Student can draw the conclusions based on the laboratory experiments -K-K0 K4 Student can cooperate with other members of laboratory group-K-K0 |
Metody dydaktyczne: | (tylko po angielsku) Expository teaching methods: - informative lecture; - laboratory; |
Metody dydaktyczne podające: | - wykład informacyjny (konwencjonalny) |
Metody dydaktyczne poszukujące: | - laboratoryjna |
Skrócony opis: |
(tylko po angielsku) The course will describe applicational aspect of polymer materials. Students will be introduced to the background of polymer technology, including practical aspects of polymer processing and recycling. The exercises performed during the laboratory will allow the participants to familiarize themselves with simple methods of obtaining packaging materials, with ways to analyze the most important of their properties and applications as well as recycling methods. |
Pełny opis: |
(tylko po angielsku) The Lecture covers the following topics: Introduction to polymer materials including basic description of polymer synthesis. Due course of the lecture import issues concerning polymer structure will be discussed. Substantial part of the lecture will be devoted to description of basics of polymer processing, which will be continued and more thoroughly treated during extensive lab course. The laboratory covers following topics: Color testing in polymer analysis Thermal shrinkability of polymer films Thermoforming of new packaging dedicated to yoghurts Analysis of Vicat softening temperature Mechanical recycling of polyolefins and poly(ethylene terephthalate) |
Literatura: |
(tylko po angielsku) Basic 1. J. F. Rabek, Polymer Photodegradation, Mechanisms and Experimental Methods, Chapman & Hall, London, 1995. 2. H.-G. Elias, An Introduction to Polymer Science, VCH, Weinheim, 1997. 3. E.L. Thomas, Materials Science and Technology, VCH, Weinheim, 1993. 4. James M. McKelvey, Polymer processing. New York ; London : John Wiley and Sons, Inc., 1962. 5. Chang Dae Han, Rheology and processing of polymeric materials. Vol. 2, Polymer processing /. Oxford University Press, 2007. 6. John Scheirs, Polymer recycling : science, technology and applications. Chichester : John Wiley & Sons, 1998 7. Thomas Roy Crompton, Analysis of polymers : an introduction. Oxford [etc.] : Pergamon Press, cop. 1989. Supplementary 4. A. S. Waldman, L. Schechinger, G. Govindarajoo, J. S. Nowick, The Alginate Demonstration: Polymers, Food Science, and Ion Exchange, J. Chem. Educ. 75 (1998) 1430-1431. |
Metody i kryteria oceniania: |
(tylko po angielsku) The lecture and the laboratory will be assessed separately. Assessment methods: - written exam (lecture): W1-W5 - activity + lab reports (laboratory): U1-U6, K1-K4 Assessment criteria: fail- below 50 pts (50%) satisfactory- 50-60 pts (50-60%) satisfactory plus- 61-65 pts (61-65%) good – 66-75 pts (66-75%) good plus- 76-80 pts (76-80%) very good- 81-100 pts (81-100%) |
Zajęcia w cyklu "Semestr letni 2024/25" (jeszcze nie rozpoczęty)
Okres: | 2025-02-17 - 2025-09-30 |
Przejdź do planu
PN WT ŚR CZ PT |
Typ zajęć: |
Laboratorium, 25 godzin, 8 miejsc
Wykład, 5 godzin, 8 miejsc
|
|
Koordynatorzy: | Jacek Nowaczyk | |
Prowadzący grup: | Jacek Nowaczyk | |
Lista studentów: | (nie masz dostępu) | |
Zaliczenie: |
Przedmiot -
Egzamin
Laboratorium - Zaliczenie na ocenę Wykład - Egzamin |
Właścicielem praw autorskich jest Uniwersytet Mikołaja Kopernika w Toruniu.