GAZI UNIVERSITY INFORMATION PACKAGE - 2019 ACADEMIC YEAR

COURSE DESCRIPTION
CORROSION AND SURFACE TREATMENT/MEM-358
Course Title: CORROSION AND SURFACE TREATMENT
Credits 3 ECTS 3
Course Semester 6 Type of The Course Elective
COURSE INFORMATION
 -- (CATALOG CONTENT)
 -- (TEXTBOOK)
 -- (SUPPLEMENTARY TEXTBOOK)
 -- (PREREQUISITES AND CO-REQUISITES)
 -- LANGUAGE OF INSTRUCTION
  TURKISH
 -- COURSE OBJECTIVES
 -- COURSE LEARNING OUTCOMES
The student will have theoretical knowledge about corrosion and surface protection.
The undergraduate students who take this course know corrosion mechanisms and protection methods.
Learn the effect of materials on the material functioning of the materials to be worked on, and analyze, explain and propose solutions for corrosion-i
Will learn the importance of surface treatment in the solution of engineering problems and will be able to suggest appropriate method.
Learn the methods of describing the structure and composition of coatings and establish the relationship between properties and performances.

 -- MODE OF DELIVERY
  The mode of delivery of this course is Face to face
 --WEEKLY SCHEDULE
1. Week  Definition and significance of Corrosion Classification of corrosion Chemical and Electro-Chemical Corrosion
2. Week  Thermodynamic principles of electrochemical corrosion Kinetic principles of electrochemical corrosion
3. Week  Corrosion Mechanisms Environmental effects in corrosion formation Metallurgical effect on corrosion. Hydrogen damage
4. Week  Types of Corrosion Galvanic corrosion Crevice corrosion Pitting corrosion
5. Week  Intergranular corroion Selective corrosion Erosion corrosion Stress corrosion
6. Week  High Temperature Corrosion Oxidation and Kinetic
7. Week  Oxidation Resistant Metals and Alloys, Mid-term Exam
8. Week  Corrosion Tests, Corrosion prevention methods, Inhibitors Cathodic and Anodic Protectio
9. Week  The importance of surface treatment in corrosion protection Classification of surface treatments Surface coating methods
10. Week  Coating from gas phase Physical and chemical vapor deposition and plasma coating Coating from liquid phase Chemical coating, electrochemical coating
11. Week  Electroplating, currentless coating Melting or semi-molten phase coating; Laser, Thermal spray, plasma spray and hot dip coatings
12. Week  Sol-gel coatings Sol-gel coating types. Application areas of sol-gel coatings
13. Week  Coating characterization Adhesion, thickness, hardness, chemistry and compound detection methods Determination of coating thickness.
14. Week  Material Selection for Corrosion Protection The effect of tarsal on corrosion resistance
15. Week  
16. Week  
 -- TEACHING and LEARNING METHODS
 -- ASSESSMENT CRITERIA
 
Quantity
Total Weighting (%)
 Midterm Exams
1
60
 Assignment
0
0
 Application
0
0
 Projects
0
0
 Practice
0
0
 Quiz
0
0
 Percent of In-term Studies  
60
 Percentage of Final Exam to Total Score  
40
 -- WORKLOAD
 Activity  Total Number of Weeks  Duration (weekly hour)  Total Period Work Load
 Weekly Theoretical Course Hours
14
2
28
 Weekly Tutorial Hours
14
0
0
 Reading Tasks
14
1
14
 Searching in Internet and Library
14
1
14
 Material Design and Implementation
14
0
0
 Report Preparing
14
0
0
 Preparing a Presentation
14
0
0
 Presentation
14
0
0
 Midterm Exam and Preperation for Midterm Exam
7
1
7
 Final Exam and Preperation for Final Exam
7
1
7
 Other (should be emphasized)
0
 TOTAL WORKLOAD: 
70
 TOTAL WORKLOAD / 25: 
2.8
 Course Credit (ECTS): 
3
 -- COURSE'S CONTRIBUTION TO PROGRAM
NO
 PROGRAM LEARNING OUTCOMES
1
2
3
4
5
1Professional and ethical responsibility gains knowledge.X
2Ability to design experiments, conduct experiments, analyze and interpret the results of experiments.X
3The project-based work culture adopts workplace practices, awareness of employees health, environment and work safety; To train graduates with an awareness of the legal consequences of their engineering practices.X
4Ability to select and use the techniques and modern tools necessary for engineering applications and computer software, information and communication technologies.X
5To be aware of the problems of the age and awareness of entrepreneurship and innovation.
6Knowledge of the necessity of using information resources and lifelong learning, including developments in science and technology.X
7The breadth of education required to understand the effects of engineering solutions on universal and social dimensions.X
8Ability to communicate effectively with oral and written and technical drawings in Turkish and English.X
9Professional and ethical responsibility.X
10Defining and formulating engineering problems, and selecting and applying appropriate analytical methods and modeling techniques for this purpose.X
11Ability to work in their own discipline and in multi-disciplinary teams.X
12The ability to design a system, part, or process that meets the desired requirements by considering realistic constraints and conditions.X
13Ability to design experiments, conduct experiments, analyze and interpret the results of experiments.X
14Knowledge of mathematics, science and own branches and having sufficient knowledge in engineering subjects and knowledge of application skills.X
 -- NAME OF LECTURER(S)
   (Assoc.Prof. Hanifi Çinici)
 -- WEB SITE(S) OF LECTURER(S)
   (https://websitem.gazi.edu.tr/site/hcinici/academic)
 -- EMAIL(S) OF LECTURER(S)
   (hcinici@gazi.edu.tr)