Material Sciences and Engineering
Sub-disciplines
Materials Science and Engineering connect the real world with nanotechnology, biotechnology, information technology, and energy manufacturing. This academic discipline helps to transform scientific and electronic materials for the better through the principles of physics and chemistry. This field of study equips students with the knowledge of material performance, quality, and functional properties. This study aims to invent new methods by combining chemical elements into materials. Materials Science and Engineering is a multidisciplinary and versatile course. Other sub-disciplines of Engineering and Technology largely depend upon the fundamentals of Materials Sciences and Engineering.
Advanced materials required to design and manufacture safer electronic devices and heavy machines rely on the branch of Materials Science and Engineering. These products include cars, car machines, sensors, faster computers, cultivating and harvesting machines, and healthcare electronic devices. Materials Scientists and Engineers develop alternatives through discovery and upgrade materials and products. Materials Scientists and Engineers' responsibility is to conduct tests, monitor performance, document research work, troubleshoot, and supervise product quality. Their expertise in the work extends to that of analysing and preserving artefacts and artwork.
Study levels:
Mentioned below are some of the study levels required for a successful career in the field of Materials Science and Engineering:
Bachelor of Engineering
Bachelor of Engineering in Materials Science and Engineering
Bachelor of Engineering in Chemical Engineering
Bachelor of Engineering in Nanotechnology
Bachelor of Engineering in Biomaterials
Bachelor of Engineering in Metallurgical Engineering
Bachelor of Engineering in Forensic Engineering
Bachelor of Engineering in Biomedical Engineering
Bachelor of Engineering in Mechanical Engineering
Bachelor of Engineering in Electrical Engineering
Bachelor of Technology
Bachelor of Technology in Materials Science and Engineering
Bachelor of Technology in Chemical Engineering
Bachelor of Technology in Nanotechnology
Bachelor of Technology in Biomaterials
Bachelor of Technology in Metallurgical Engineering
Bachelor of Technology in Forensic Engineering
Bachelor of Technology in Biomedical Engineering
Bachelor of Technology in Mechanical Engineering
Bachelor of Technology in Electrical Engineering
Bachelor of Technology in Polymeric and Biomedical Materials
Bachelor of Technology in Optoelectronics and Information Storage Materials
Bachelor of Technology in Engineering Materials and Processing
Bachelor of Science and Technology
Master of Engineering
Master of Engineering in Materials Science and Engineering
Master of Engineering in Chemical Engineering
Master of Engineering in Nanotechnology
Master of Engineering in Biomaterials
Master of Engineering in Metallurgical Engineering
Master of Engineering in Forensic Engineering
Master of Engineering in Biomedical Engineering
Master of Engineering in Mechanical Engineering
Master of Engineering in Electrical Engineering
Master of Technology
Master of Technology in Materials Science and Engineering
Master of Technology in Chemical Engineering
Master of Technology in Nanotechnology
Master of Technology in Biomaterials
Master of Technology in Metallurgical Engineering
Master of Technology in Forensic Engineering
Master of Technology in Biomedical Engineering
Master of Technology in Mechanical Engineering
Master of Technology in Electrical Engineering
Master of Technology in Polymeric and Biomedical Materials
Master of Technology in Optoelectronics and Information Storage Materials
Master of Technology in Engineering Materials and Processing
Master of Science and Technology
Ph.D. in Engineering and Technology
Specialisations:
Some of the areas of specialisation under this discipline include:
Biomaterials
Design and Manufacturing
Electronic Materials
Energy Materials
Metals and Ceramics
Nanomaterials
Polymeric Materials
Surface Science
Metallurgy
Materials Manufacturing
Ceramic Materials
Smart Materials and Devices
Data Analytics
Computational Materials
Manufacturing and Infrastructure
Electricals
Optical Materials
Functional Materials
Soft Materials
Biotechnology
Civil Engineering
Environmental Engineering
Electronics Engineering
Employability:
As a multidisciplinary subject, Materials Science and Technology offers a wide range of job opportunities in sectors including academia, industries, and humanities. The employability rate of this career option is expected to grow faster than the average occupation in the coming years. An advanced degree and work experience will primarily have the best career opportunities.
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- The job titles related are as follows:
Materials Scientist
Materials Science Engineer
Biochemist
Biophysicist
Chemical engineer
Chemical Technician
Project Manager
Engineering Consultant
Environmental Scientist and Specialist
Forensic Science Technician
Geoscientist
Professor
Natural Sciences Manager
CAD Technician
Design Engineer
Metallurgist
Product Development Scientist
Process Development Scientist
Technician Sales Engineer
Analytical Chemist
Biomedical Engineer
Management Consultant
Quality Manager
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- The sectors in which Materials Scientists and Engineers are hired include:
Lockheed Martin
Boeing
Honeywell
Northrop Grumman
Lowe�s Home Improvement
Cummins
Medtronics
Exxon Mobils
Siemens
Eurofins Scientific
Formlabs
Corning
GE Research
Battelle
Raytheon Technologies
Bechtel
Blue Origin
Tesla
Steelcase
Halliburton