Education Information System

Course Title	Code	Semester	L+U Hour	Credits	ECTS
Technology Of Materials-I	MAK1121	1. Semester	3 + 1	4.0	4.0

Prerequisites

None

Language of Instruction	Turkish
Course Level	Associate
Course Type
Mode of delivery	Lectures on the board, answering questions related to the topic of the study, sample problems, solving issues related to experiments, analyzing the results of experiments. Report hazırlamak.sınıf work, face to face training, work assignments, practice (technical excursions and trips to the fair).
Course Coordinator	Lect. Hidayet BAYRAKTAR
Instructor(s)	Hidayet BAYRAKTAR
Assistants
Goals	The types of materials used in the industrial area to recognize, to understand the basic properties, the ability to select the most suitable material for design to win.
Course Content	Material description and classification, internal structure of materials and the internal structure of the concepts, iron-carbon equilibrium diagram, heat treatment, corrosion, non-ferrous materials (ceramics, plastics), the materials forming processes (rolling and forging)
Learning Outcomes	- When the student completes the course; Classify the materials. Students will be able to comprehend the basic information about the atomic structures of the materials and their arrangement. Interpret solidification-melting behavior of ferrous and non-ferrous metals. Explain steel and cast iron regions on iron - carbon balance diagram. Can apply heat treatment to steels. Understand the corrosion and protection methods. Knows where and how to use these concepts in later vocational courses. Performs laboratory studies and experiments to see and interpret the accuracy of theoretical knowledge.

Week	Topics	Learning Methods
1. Week	Material Definition and Classification	Course Hours Research
2. Week	Introducing the internal structure of materials and the concepts of internal structure (bonds between atoms)	Course Hours Research
3. Week	Introducing the internal structure of materials and the concepts of internal structure (crystal structures)	Course Hours Research
4. Week	Iron-Carbon (Fe-C) Balance Diagram and Microstructures (Steels)	Course Hours Other Activities Research
5. Week	Iron-Carbon (Fe-C) Balance Diagram and Microstructures (Steels)	Course Hours Research Other Activities
6. Week	Metallographic examination (microstructure examination experiment)	Preparation, After Class Study Course Hours Research
7. Week	Heat Treatments Applied to Steels	Course Hours Research Preparation, After Class Study
8. Week	Heat Treatment Methods Applied to Steels	Course Hours Research Preparation, After Class Study
9. Week	Heat Treatment Methods Applied to Steels	Course Hours Research Preparation, After Class Study
10. Week	Quenching (hardening test) heat treatment test applied to steels	Research Preparation, After Class Study Course Hours
11. Week	Classification of steels and effects of alloying elements	Research Preparation, After Class Study Course Hours
12. Week	Corrosion and corrosion prevention methods in metals	Course Hours Research Preparation, After Class Study
13. Week	Non-ferrous materials (ceramics, plastics),	Course Hours Research Preparation, After Class Study
14. Week	shaping methods of materials (rolling and forging)	Course Hours Preparation, After Class Study Research

Lecture Notes, Lecture related books, publications.

Program Requirements	Contribution Level	DK1	Measurement Method

*DK = Course's Contrubution.

	0	1	2	3	4	5
Course's Level of contribution	None	Very Low	Low	Fair	High	Very High
Method of assessment/evaluation		Written exam	Oral Exams	Assignment/Project	Laboratory work	Presentation/Seminar

Event	Quantity	Duration (Hour)	Total Workload (Hour)
Course Hours	14	4	56
Research	14	1	14
Other Activities	2	3	6
Preparation, After Class Study	9	1	9
Midterm 1	1	1	1
Final	1	2	2
Classroom Activities	14	1	14
Total Workload			102
ECTS Credit of the Course			25.5 4.0