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Course Description Course Name : Materials Science Course Code : TEM211 Course Type : Compulsory Level of Course : First Cycle Year of Study : 2 Course Semester : Fall (16 Weeks) ECTS : 3 Name of Lecturer(s) : Assoc.Prof.Dr. EMEL CEYHUN SABIR Learning Outcomes of the Course : Acquires basic information about material science Learns how to use materials in the area of Textile Enginnering Learns various properties of materials Learns quality control tests on materials and interprets the test results. Learns to use the hibrid structures such as alloy, composite etc. Mode of Delivery : Face-to-Face Prerequisites and Co-Prerequisites : None Recommended Optional Programme Components : None Aim(s) of Course : The aim of this course is to teach basic consepts of materials to textile engineering students, introduction the properties of materials such as mekanical, physical and cemical and destructive and undestructive tests. teaching interpreting of these tests, ensure the student´s knowledge and skills to be able to select materials for engineering applications Course Contents : Introduction to material science. Atomic structure, mechanical properties of materials ( elastisity, hardness, tensile, impact, ), phsical properties (termal, optical, magnetical, electrical), surface properties (corosion, wear) and testing of these properties. Metalical materials, alloys, steel, phase diegrams, termal operations, non metalic materials, polimers, ceramics, composite materials, industrial textile materials. Language of Instruction : Turkish Work Place : Classroom   Course Outline /Schedule (Weekly) Planned Learning Activities Week Subject Student's Preliminary Work Learning Activities and Teaching Methods 1 Information about the course The course notes Lecture, discussion 2 Introduction to material science ve engineering The course notes Lecture, discussion 3 Atomic structure, Atomic and Ionic arrangements The course notes Lecture, discussion 4 Classification of materials and mechanical properties of materials The course notes Lecture, discussion 5 Test methods for mechanical properties (Tensile, fatique, impact, strain etc.) The course notes Lecture, discussion 6 Test methods for mechanical properties (Tensile, fatique, impact, strain etc.) The course notes Lecture, discussion 7 Metalic materials´ structure and properties (crystallography ) The course notes Lecture, discussion 8 Midterm exam The course notes written examination 9 Phase diagrams The course notes Lecture, discussion 10 Polimers´ structure and properties The course notes Lecture, discussion 11 Ceramics´ structure and properties The course notes Lecture, discussion 12 Copmposites´ structure and properties The course notes Lecture, discussion 13 Physical porperties (thermal, optical and electrical etc) The course notes Lecture, discussion 14 Physical porperties (thermal, optical and electrical etc) The course notes Lecture, discussion 15 Repeating Lecture Subjects The course notes Lecture, discussion 16/17 final examination The course notes Written examination   Required Course Resources Resource Type Resource Name Recommended Course Material(s)  Phsical Metallurgy Priciples, R. Abbaschian  Material Technology, Level 3, Timings, R.L., Longman London ve New York Required Course Material(s)  Kaşif Onaran, Material Science  Material Science and Testing, Selahattin Anık  Industrial Materials , , Vol I ve Vol II, M. Ali Topbaş  Non destructive Tests of Materials, Ahmet Topuz  Material Science and Engineering, Nihat Kınıkoğlu  Plastic material science, Selma Akkurt  The Science and Engineering of Materials, Askeland, D., Nobel Publishing   Assessment Methods and Assessment Criteria Semester/Year Assessments Number Contribution Percentage     Mid-term Exams (Written, Oral, etc.) 1 60     Homeworks/Projects/Others 1 40 Total 100 Rate of Semester/Year Assessments to Success 40   Final Assessments 100 Rate of Final Assessments to Success 60 Total 100   Contribution of the Course to Key Learning Outcomes # Key Learning Outcome Contribution* 1 Uses information and communication technologies and softwares at a required level 0 2 Has the professional and ethical responsibility. 0 3 Uses the knowledge obtained from the basic sciences and engineering in the field of textile engineering 4 4 Does process analysis, Identifies problems, interprets and evaluates data in the field of textile engineering 2 5 Selects and uses modern techniques and tools for engineering applications 3 6 Has the skills of designing experiments, data collection, cognitive analysis and interpretation of the results 3 7 Works effectively both individually and as a team member and takes responsibility 0 8 Searches literature, has access to information, uses databases and other sources of information 1 9 Recognizes the need of lifelong learning; follows developments in science and technology and renews self continuosly 2 10 Has effective oral and written communication skills. 0 11 Follows developments in the field in a foreign language, has good communication skills with colleagues. 0 12 Has the necessary awareness on the fields of occupational health and safety, legal side of engineering applications and environmental health. 1 13 Has required competence in project management, entrepreneurship and innovation. 1 14 Has sufficient background in the fields of Mathematics, Science and Textile Engineering 0 15 Defines learning requirements in scientific, social, cultural and artistic areas and improves himself/herself accordingly. 0 * Contribution levels are between 0 (not) and 5 (maximum).   Student Workload - ECTS Works Number Time (Hour) Total Workload (Hour) Course Related Works     Class Time (Exam weeks are excluded) 14 2 28     Out of Class Study (Preliminary Work, Practice) 14 2 28 Assesment Related Works     Homeworks, Projects, Others 1 2 2     Mid-term Exams (Written, Oral, etc.) 1 2 2     Final Exam 1 5 5 Total Workload: 65 Total Workload / 25 (h): 2.6 ECTS Credit: 3