The academic content and curriculum of the Bachelor of Science in Materials Science and Technology aims to provide students with a wide range of knowledge and skills, starting from basic sciences to advanced materials engineering topics. The program usually covers a period of four years and offers a balanced mix of theoretical courses and practical applications.
In the first years, students take basic science courses. These include general chemistry, physics, mathematics and computer science. Chemistry courses include topics such as chemical bonding, reactions, thermochemistry and electrochemistry. Physics courses cover mechanics, electromagnetism, optics and modern physics. Mathematics courses include topics such as calculus, linear algebra and differential equations. These courses provide a solid foundation for students to understand materials science and engineering courses.
In the second and third years, students move on to more specialized materials science courses. Materials chemistry and materials physics enable students to understand the internal structure of materials and how this structure affects material properties. Crystallography and crystal structures study the atomic arrangement of materials and how this affects material properties. Thermodynamics and phase diagrams courses deal with the thermal properties of materials and phase transformations. Mechanical behavior courses teach the behavior of materials under stress, strain and deformation.
In the third and fourth years, students are trained in materials characterization techniques and analysis methods. These include techniques such as X-ray diffraction, electron microscopy, spectroscopy and thermal analysis. Students learn to analyze the microstructure and composition of materials using these methods. In addition, material selection and design courses help students select the most suitable materials for specific applications.
Production technology courses cover metallurgical, ceramic and polymer production processes. In these courses, various production methods such as casting, forging, extrusion, sintering and polymerization are taught. Mechanical and thermal processing methods of materials are also studied. This knowledge enables students to optimize material production processes and develop new material production techniques.
In the last years of the program, students often have the opportunity to specialize in their areas of interest by taking elective courses. Topics such as nanomaterials, biomaterials, composite materials and electronic materials can be among these elective courses. In addition, students are encouraged to carry out final projects or thesis studies. These projects allow students to translate their theoretical knowledge into practical applications.
Laboratory work and projects form an important part of the program. Students learn hands-on material characterization and analysis techniques in modern laboratories. They also gain the skills to develop solutions to real-world engineering problems through project-based learning methods. These projects are often carried out in collaboration with industry and help prepare students for the professional world.
As a result, the Bachelor's Degree Program in Materials Science and Technology equips students with a broad set of knowledge and skills, providing them with the necessary background to pursue a successful career in the field of materials science. Supported by theoretical courses as well as practical applications and projects, this program offers students a comprehensive and balanced education.