TOROS ÜNİVERSİTESİ
Bilgi Paketi Ders Kataloğu

Course Information

MATERIALS SCIENCE
Code	Semester	Theoretical	Practice	National Credit	ECTS Credit
		Hour / Week
INE102	Spring	3	0	3	4

Prerequisites and co-requisites	none
Language of instruction	English
Type	Required
Level of Course	Bachelor's
Lecturer	Asst.Prof. Dr. Fikri EGE
Mode of Delivery	Face to Face
Suggested Subject	none
Professional practise ( internship )	None
Objectives of the Course	The aim of Material Science is to introduce the micro structure of materials by using physics, chemistry and mathematics disciplines, to explain the relation between micro structure and properties and to classify the materials according to the basic principles and concepts.
Contents of the Course	Atomic Structure, Atomic Order, Crystalline Structures, Microstructure Defects: Amorphous structure, Solid solutions, Atomic diffusion, Grain boundary, Dislocations, Mechanical Properties: Stress, Deformation, Elasticity, Elastic and plastic behaviour, Creep, Relaxation, Hardness, Toughness, Resilience

Learning Outcomes of Course

#	Learning Outcomes
1	Students use the knowledge on material structures in production systems.
2	Explain the importance of physical properties of materials in material science and engineering.
3	Differentiate the materials based on their properties
4	Will be able to interpret the mechanical properties of materials.

Course Syllabus

#	Subjects	Teaching Methods and Technics
1	Introduction, Definition, Benefits of Material Knowledge, Classification of Materials, Standard, Sustainability	Lecturing
2	Micro Structure of Materials, Interatomic Bonds	Lecturing
3	Atomic Order, Crystal Structure, Amorphous Structure	Lecturing
4	Interatomic Distances, The relation between Interatomic Bonds and Properties	Lecturing
5	Mechanical Properties of Materials, Stress-Strain Relation, Behaviour under Tensile Stress	Lecturing
6	Behaviour of Materials under Compression, Shear and Flexure	Lecturing
7	Midterm Exam	Exam
8	Technological Properties: Hardness, Abrasion, Fatigue, Creep, Relaxation	Lecturing
9	Material Types	Lecturing
10	Material Types	Lecturing
11	Optical properties	Lecturing
12	Electrical properties	Lecturing
13	Thermal properties	Lecturing
14	Material choices	Lecturing
15	Material choices	Lecturing
16	Final Exam	Exam

Course Syllabus

#	Material / Resources	Information About Resources	Reference / Recommended Resources
1	Materials Science and Engineering Properties Charles Gilmore

Method of Assessment

#	Weight	Work Type	Work Title
1	40%	Mid-Term Exam	Mid-Term Exam
2	60%	Final Exam	Final Exam

Relationship between Learning Outcomes of Course and Program Outcomes

#	Learning Outcomes	Program Outcomes	Method of Assessment
1	Students use the knowledge on material structures in production systems.	9	1͵2
2	Explain the importance of physical properties of materials in material science and engineering.	9	1͵2
3	Differentiate the materials based on their properties	9	1͵2
4	Will be able to interpret the mechanical properties of materials.	9	1͵2

PS. The numbers, which are shown in the column Method of Assessment, presents the methods shown in the previous table, titled as Method of Assessment.

Work Load Details

#	Type of Work	Quantity	Time (Hour)	Work Load
1	Course Duration	14	3	42
2	Course Duration Except Class (Preliminary Study, Enhancement)	14	3	42
3	Presentation and Seminar Preparation	0	0	0
4	Web Research, Library and Archival Work	0	0	0
5	Document/Information Listing	0	0	0
6	Workshop	0	0	0
7	Preparation for Midterm Exam	1	5	5
8	Midterm Exam	1	3	3
9	Quiz	0	0	0
10	Homework	0	0	0
11	Midterm Project	0	0	0
12	Midterm Exercise	0	0	0
13	Final Project	0	0	0
14	Final Exercise	0	0	0
15	Preparation for Final Exam	1	23	23
16	Final Exam	1	3	3
				118