Language
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Turkish
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Program Time (Year)
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4
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Max.Program Time (Year)
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7
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Program Quota
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Internships Status
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Absent
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.Graduate Degree
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Metallurgical and Materials Engineer
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About Programme
Metallurgical and Materials Engineering is the science that enables the production and development of future-oriented engineering materials that humanity needs, with production methods that also take environmental responsibilities into account. In this branch of science, it is possible with an inter-engineering mission and a strategy-oriented work process in which each of the "technological-economic-ecological" balance components is mandatory. Today, Metallurgical and Materials Engineering continues to develop as a multidisciplinary science and technology branch spread over the fields of chemistry, machinery, construction, aerospace, electricity-electronics, environment and medicine, and it plays an important role in bringing the production processes in harmony with the trio of efficiency, energy and raw materials to the sector. plays a role. Although developments in Metallurgical and Materials Engineering in recent years generally focus on optimization of metallurgical processes, numerical simulation, and modeling, in environmental metallurgy applications, issues such as producing disposable waste that will not cause environmental pollution, waste water de-metallization in the form of returning the de-metallized (purified from metal ions) solution to the system as usable water, design of reactors and processes for re-evaluation of secondary resources are prominent. Metallurgical and Materials Engineering, starting from raw materials, producing metal, ceramic and polymer-based materials; It is an engineering branch that deals with adapting the properties of the materials produced to the needs of various industries. The development and production of high-performance products required by the defense industry, heavy industry, chemical industry, energy, communication, transportation and other sectors, especially aviation, is an inevitable requirement of advancing technology and today's market conditions. Metallurgical and Materials Engineering has developed superior materials that can meet such needs and aims to develop superior materials with advancing technology.
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History
Starting from 1935, they will start with the preparations that their arts will be in the country, and these communities will live with their numbers. may discourage its cultivation from revealing. . . . . . . . . . . . . . . . . . . . . In this 1937-1938 academic year, a three-year "Erk Vocational Teachers' School" was opened in the Ministry of National Education Ankara 1st Boys' Art School (in Ulus), which offered "Leveling, Iron and Carpenter" departments, and "Technical Teachers" were trained in these departments. -The "Electricity" department joined in 1942. It consists of departments in the 1947-1948 Teacher department. The name of the school in 1949 is Technical High School, the school name in 1948-1949 is Technical High School Mechanical Painting, in 1971-1972 department and 1976-1977 Higher Technical School. It is in the Vocational High Schools and equivalent vocational professions department.The courses are given by the educational institution that trains Technical Teachers.
Our Faculty, which was affiliated to Gazi University, which was established in 1982 with the Law No. 2809, was renamed the Faculty of Technical Education. Electrical and Electronics Engineering, Energy Systems Engineering, Manufacturing Engineering, Civil Engineering, Metallurgical and Materials Engineering, Automotive Engineering departments were opened in the 2010-2011 academic year, and Computer Engineering and Woodworking Industrial Engineering departments joined these departments in the 2011-2012 academic year. Finally, with the Industrial Design Engineering department opened in 2013, there are 9 departments providing engineering education in our Faculty. In addition, in accordance with the decision taken at the General Assembly of YÖK on January 5, 2012, the departments within our faculty were given the right to open master's and doctoral programs.
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Qualification Awarded
First Cycle (Bachelor's) Degree
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Admission Requirements
High School Diploma, (2) Placement through a centralised, nation-wide student selection and placement examination organized by Assessment, Selection and Placement Centre (ÖSYM). Candidates gain access to the programmes based on their composite scores consisting of the scores on the centralized exam and high school grade point averages.
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Higher Grade Transition
Upon successful completion of this programme, students may apply to second cycle degree or directly to integrated third cycle (doctorate) programmes.
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Graduation Requirements
Successfully completing all the courses available in the program and having a weighted grade point average of at least 2.00 out of 4.00 are the required qualification conditions for graduation.
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Occupational Profiles of Graduates
This degree enables the graduate to exercise his/her profession in the field of
?Iron-Steel Industry
?Non-Ferrous Metal Production Industry (copper, aluminum, etc.)
Glass, Ceramic and Refractory Industry
Iron, Steel and other Metals Casting Industry
Defense industry
Machine Manufacturing Industry
Automotive and Automotive Sub-Industry
Aircraft and Ship Manufacturing Industry
Welding Materials Production Industry
Metal Forming and Processing Industry
Surface Treatment and Coating Industry
Electrical-Electronic Material Industry
White Goods Industry
Magnetic Material Production Industry
Biomedical Material Production Industry Energy sector
Plastic Technology
Quality Control and Inspection Companies
Quality Departments in All Sectors.
It covers R&D Companies and Universities.
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Assessment and Grading
(1) At the end of the semester/year they are registered, students are given a letter grade for each course. (2) This letter grade is appreciated by the instructor giving the course. (3) In the evaluation of the success letter grade, the student's midterm exam, semester/end exam, success in the semester studies and attendance to the courses and applications are taken into consideration. The calculation of this letter grade is determined by the recommendation of the relevant academic unit board, the decision of the relevant board of the academic unit and the approval of the Senate. (4) The success grade of the student is determined out of 100 full points. This score is called the raw achievement score. (5) A student with a raw success score below 25.00 fails the course by getting a direct (FF) grade. The success grade of the student whose raw success score is 25.00 and above; The general situation of the class is evaluated with one of the letter grades whose coefficients and expansion are stated below, using one of the methods prepared with the decision of the University Education Commission and the approval of the Senate, taking into account the arithmetic averages and statistical distribution. After this evaluation, it is possible to have letter grade equivalents (FF) of raw achievement scores of 25.00 and above. (6) Coefficients and success letter grades are evaluated as follows: a) Coefficients Notes 4.00 AA 3.50 BA 3.00 BB 2.50 CB 2.00 CC 1.50 DC 1.00 DD 0.50 FD 0.00 FF
b) 1) D: Absent, 2) G: Did not enter, 3) E: Incomplete, (The (E) grade that is not corrected within three weeks following the finalization of the final exam success letter grades is converted to (FF).) 4) VZ: Withdrawal from the course. (7) A student who receives one of the grades (AA), (BA), (BB), (CB), (CC), (DC) and (DD) in a course is considered successful in that course. However, in order to graduate, the student's CGPA must be at least 2.00.
http://ogris.gazi.edu.tr/posts/view/title/yonetmelikler-193825?siteUri=ogris
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https://obs.gazi.edu.tr/oibs/bologna/progAbout.aspx?curSunit=181010926&lang=en
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