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COURSE UNIT TITLECOURSE UNIT CODESEMESTERTHEORY + PRACTICE (Hour)ECTS
APPLIED POLYMER MATERIALS FOR ENGINEERING STUDENTS EEM484 - 3 + 1 5

TYPE OF COURSE UNITElective Course
LEVEL OF COURSE UNITBachelor's Degree
YEAR OF STUDY-
SEMESTER-
NUMBER OF ECTS CREDITS ALLOCATED5
NAME OF LECTURER(S)-
LEARNING OUTCOMES OF THE COURSE UNIT At the end of this course, the students;
1) Enable to identify and classify the polymer materials and raising awareness about recycling plastics.
2) Shaping, molding and characterization of polymer materials
3) Understanding the usage areas of polymer materials and generating new ideas about the new methods.
4) Smart materials-Conducting polymers and their applications.
MODE OF DELIVERYFace to face
PRE-REQUISITES OF THE COURSENo
RECOMMENDED OPTIONAL PROGRAMME COMPONENT
COURSE DEFINITIONThis course includes mainly the synthesis, characterization and the forming techniques of ordinary and engineering plastics (polymers). Polymer types, synthesis methods, characterization techniques and manufacturing-molding processes and pplications are covered. Moreover, structure-property relationship and applications of smart materials (especially organic semiconductors) are included. Course is supported with two laboratory works. The main aim of this course is to provide engineering students with a basic level of knowledge about the principles and practice of polymer science (plastic materials). This course also aims to develop laboratory skills relating polymeric materials.
COURSE CONTENTS
WEEKTOPICS
1st Week Introduction to polymers: Definition, history, classification of polymers, recycling codes, basic nomenclature for naming polymers.
2nd Week Polymer Morphology. Configuration-conformation Copolymers
3rd Week Thermoplastics, recycling codes, recycling plastics. Tests for identifying plastics.
4th Week Polystyrene-Polyurethane-Bakalite
5th Week Teflon-Acyrlic polymers.
6th Week Rubber and rubber gum. Production, chemistry, applications.Plastic additives.Composites.
7th Week Shaping and molding of polymers
8th Week Midterm Exam
9th Week Polymer testing.
10th Week Conducting polymers and applications
11th Week Conducting polymers and applications
12th Week Experiment1: Polymers in Daily life: Polystyrene foam, hydrogels, starch solution.
13th Week Experiment2: Molding polyurethane, Synthesis of Nylon.
14th Week Oral Presentations
RECOMENDED OR REQUIRED READING1-Structure-Property Relationships in Polymers. R. B. Seymour, Plenum Press, 1984.
2- Robert O. Ebewele. Polymer Science, CRC Press, 2000.
PLANNED LEARNING ACTIVITIES AND TEACHING METHODSPresentation,Lecture,Experiment
ASSESSMENT METHODS AND CRITERIA
 QuantityPercentage(%)
Mid-term120
Practice120
Presentation of Case Study120
Total(%)60
Contribution of In-term Studies to Overall Grade(%)60
Contribution of Final Examination to Overall Grade(%)40
Total(%)100
ECTS WORKLOAD
Activities Number Hours Workload
Midterm exam122
Preparation for Quiz
Individual or group work14114
Preparation for Final exam11616
Course hours14456
Preparation for Midterm exam11212
Laboratory (including preparation)248
Final exam122
Homework
Presentation (including preperation)11414
Total Workload124
Total Workload / 304,13
ECTS Credits of the Course5
LANGUAGE OF INSTRUCTIONEnglish
WORK PLACEMENT(S)No
  

KEY LEARNING OUTCOMES (KLO) / MATRIX OF LEARNING OUTCOMES (LO)
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