Advanced Materials Engineering is to study materials that are utilized in high-technology applications and can lead to state-of-the-art technologies. The Faculty of Advanced Materials Engineering combines the relevant theory and practice by specializing all materials types (metals, ceramics, polymers, composites, semiconductors etc.), functional materials (aerospace materials, biomaterials, smart materials, energy technology and environment, magnetic materials, optical materials, electronics materials, structural materials, nano materials etc.)
Faculty of Advanced Materials Engineering is divided into 3 main departments as follows: (1) Department of Metallurgical Engineering (2) Department of Materials Science and Engineering and (3) Department of Nanoengineering. It is also divided into 5 main practical room and workshop.
1. Mineral Processing (Metallurgy) Lab
2. Foundry Lab
3. Materials Synthesis Lab (Nano)
4.Materials Characterization Lab (Microscope Lab/SEM)
5. Materials Science and Engineering Lab (Mechanical Testing etc.)
Materials Science is investigating relationships that exist between the structure and properties of materials.
Materials Engineering is on the basis of these structure-property correlations, designing or engineering the structure of a material to produce a pre-determined set of properties.
Metallurgical Engineering is to study metals production and recycling, the manufacturing of components from metals and alloys, the processing and treatment of metals to achieve improved properties, and the design of metallic materials for specific applications.
Nanoengineering aims to get in the fundamental building blocks of nanotechnology through Advanced Material Engineering to provide a strong background in chemical, electrical, optical, biomedical, and material areas in which developments on the nanoscale are becoming a major force for technological improvement.
To nurture materials and metallurgical engineers to benefit society
Let's improve engineering works with the power of materials
