

BSc Materials Science and Engineering
About this course
Materials science and engineering is the discipline that studies the relationship between the structure of materials at the atomic and molecular scale and the properties they exhibit at the scale of components and products. Understanding why steel is tough, why ceramics are brittle, why some polymers are flexible and others rigid, and how semiconductors can be engineered to control electrical current with extraordinary precision is the foundation for designing the materials that modern technology depends on. Materials scientists and engineers work to develop new materials and to optimise the performance of existing ones, contributing to advances in aerospace, energy, electronics, healthcare, and construction. At the University of Manchester, this programme includes a foundation year that provides the scientific and mathematical grounding needed to enter the materials science curriculum at the level required. Manchester has one of the world's leading materials science and engineering departments, with exceptional research facilities and strong connections to industry. The foundation year ensures that all students can engage confidently with the rigorous scientific content of the main programme, which covers crystalline structures, phase transformations, mechanical and thermal properties, electrical and optical behaviour, processing and manufacturing, and the characterisation techniques used to examine materials at different scales. Materials science and engineering graduates are employed in industries that depend on developing or using advanced materials: aerospace, automotive, energy, semiconductors, biomedical devices, and defence are all major employers. Roles in research and development, quality and testing, process engineering, manufacturing, and technical management are common career destinations. The materials industry is central to many of the most important technological transitions underway, including electrification of transport and the development of next-generation batteries and structural composites. Many graduates pursue chartered engineer status through bodies such as the Institute of Materials, Minerals and Mining, and postgraduate study is a natural step for those aiming at research or specialist technical roles.
Syllabus & Modules
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