FACULTY OF ENGINEERING
METALLURGICAL AND MATERIALS ENGINEERING
Course Name   MATERIALS SCIENCE-I-
Semester Course Code Theoretical / Practice time ECTS
3 1219301 4,00 / 0,00 5,00
Course Degree Bachelor's degree
Course Language Turkish
Format of Delivery: Face to Face
Course Coordinator Dr. Öğretim Üyesi Ozlem ALTINTAS YILDIRIM
Coordinator e-mail altintas selcuk.edu.tr
Instructors
Prof.Dr. Mustafa ACARER , Yrd. Doç. Dr. Ozlem ALTINTAS YILDIRIM
Asistant Instructors
Course Objectives 1-Explain the importance of material science in terms of engineering applications 2-Teach the basic structure of engineering materials, 3-Introduce the types of materials and their properties. 4-Teach the properties of materials, structures and manufacturing processes
Basic Sciences Engineering Scinces Social Sciences Educational Sciences Artistic sciences Medical Science Agricultural sciences
20 80 0 0 0 0 0
Course Learning Methods and Techniquies
Lecture, Practice, problem Solving
Week Course Content Resource
1 Introduction to engineering materials, atomic structure, chemical bonds and material types Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
2 Crystal systems and crystal structures Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
3 Solidification, grains and grain boundary formation Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
4 Crystal defects Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
5 X-ray diffraction Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
6 Diffusion and diffusion mechanisms Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
7 Deformation of materials Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
8 Mid-term
9 Mechanisms of plastic deformation in metallic materials, fracture and fracture types Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
10 Cold deformation Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
11 Dislocations and strength-imparting mechanism Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
12 Hot deformation Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
13 Recrystallization Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
14 Mechanical properties of metals Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
15 Mechanical testing of metals Materials Science and Engineering - William D. Callister, David D. Rethwisch, 2013, Nobel Publications
Assesment Criteria   Mid-term exam Final exam
  Quantity Percentage Quantity Percentage  
Term Studies : - -
Attendance / Participation : - -
Practical Exam : - -
Special Course Exam : - -
Quiz : - -
Homework : - -
Presentations and Seminars : - -
Projects : - -
Workshop / Laboratory Applications : - -
Case studies : - -
Field Studies : - -
Clinical Studies : - -
Other Studies : - -
Mid-term exam   1 40
Final exam   1 60
ECTS WORK LOAD TABLE   Number Duration
Course Duration : 14 4
Classroom Work Time : 14 1
Presentations and Seminars : - -
Course Internship : - -
Workshop / Laboratory Applications : - -
Field Studies : - -
Case studies : - -
Projects : - -
Homework : 1 5
Quiz : 6 5
Mid-term exam : 1 25
Final Exam : 1 30
ECTS 5
No COURSE LEARNING OUTCOMES CONTRIBUTION
D.Ö.Ç. 1 Comprehend types of engineering materials and atom and interatomic bond types 4
D.Ö.Ç. 2 Comprehend amorphous materials and difference being between crystaline and amorphous 4
D.Ö.Ç. 3 Sketch crystal structure of materials, understand coordination number and calculate crystallographic density from crystal structure 4
D.Ö.Ç. 4 Sketch planes and directions in crystal structures, calculate linear and planar density 4
D.Ö.Ç. 5 Comprehend crystal structure defects and calculate the problems related to crystal imperfections 4
D.Ö.Ç. 6 Comprehend mcechanical properties of engineering materials and calculate the problems concerning 4
D.Ö.Ç. 7 Comprehend and comment deformation mechanism of engineering materials 4
* 1: Zayıf - 2: Orta - 3: İyi - 4: Çok İyi
COURSE LEARNING OUTCOMES AND PROGRAM OUTCOMES AND RELATIONSHIPS MATRIX

DÖÇ1DÖÇ2DÖÇ3DÖÇ4DÖÇ5DÖÇ6DÖÇ7DÖÇ8DÖÇ9DÖÇ10DÖÇ11DÖÇ12DÖÇ13DÖÇ14DÖÇ15DÖÇ16DÖÇ17DÖÇ18DÖÇ19DÖÇ20
PÇ1
PÇ2
PÇ3
PÇ4
PÇ5
PÇ6
PÇ7
PÇ8
PÇ9
PÇ10
PÇ11
PÇ12
PÇ13
PÇ14
PÇ15
PÇ16
PÇ17
PÇ18
PÇ19
PÇ20