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  • Engineering Course

MATERIALS ENGINEERING

  • 4 Colleges

Materials Engineering consists of designing and discovering new materials, particularly solids, which are interdisciplinary and materials science and engineering.

About Materials Engineering

Humans have grown, prospered, and enhanced their quality of life due to new materials throughout history. Furthermore, they have played an essential role in ensuring their security and prosperity. Civil engineering, chemical engineering, construction, nuclear engineering, aeronautical engineering, agricultural engineering, mechanical engineering, biomedical engineering, or electrical engineering, it's always the development of new materials that leads to new technologies. Engineers and materials scientists continue to be at the forefront of all of these areas of science and many others. Engineering and materials sciences influence our lives every time we buy, use, or build a new machine, device, or structure. Materials Science & Engineering refers to a field of study that focuses on materials and their properties (for more information, check out our list of suggested readings.) The term comes from a realization that underlies every application of materials: the material's properties give it value. There may be many reasons for choosing a material: its strength, its electrical properties, its heat resistance, its corrosion resistance, or any number of other reasons that are related to its properties. All of the valuable properties of a material are intimately dependent on its structure at all levels, including the atoms present, how they are joined, and how groups of atoms are organized. Moreover, we learn how these structures and the properties they produce are influenced by materials processing.

What is Materials Engineering? 

It consists of designing and discovering new materials, particularly solids, which are interdisciplinary and materials science and engineering. Materials science had its intellectual roots in the Age of Enlightenment, when researchers began to use chemistry, physics, and engineering to gain a deeper understanding of ancient phenomenological observations in metallurgy and mineralogy.  Physicists, chemists, and engineers still play a significant role in materials science. Due to its close association with those fields, it has been considered a sub-field of those fields for a long time. The field's influence on engineering significantly increased from the 1940s until the 1970s. During that time, the field was widely recognized as a separate and distinct field of science and engineering, with dedicated schools at prestigious universities worldwide. Material scientists are concerned with understanding how a material's history influences its structure and, consequently, its properties and performance. The materials paradigm refers to the understanding of processing-structure-properties relationships. In various fields, including nanotechnology, biomaterials, and metallurgy, this paradigm is used to advance knowledge.

Eligibility and Career in Materials Engineering 

Like every engineering course, this course also requires a 10 +2 class education with a science stream from any recognised institution on board. If your course offers them or can arrange one independently, industrial placements provide valuable practical experience. If you have the option, we recommend getting one. You'll have the opportunity to apply your academic learning to the workplace, demonstrate your interest in the discipline, and show your commitment to a career in the field. The skills you'll develop through volunteering (fundraising, organizing events, community outreach) and joining clubs, societies, and the students' union will enhance your project management and team-working abilities.

 
 

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