A relatively new field of engineering, Materials Science is exactly what the name implies: the study of materials used in scientific enterprises, and their manufacture and their uses. These materials include ceramics, glasses, metals, film, polymers, semiconductors, and composite materials. Because the discipline is so new, the demand for people with advanced degrees in Materials Science is constantly growing, and the opportunities for advancement may be quicker than in some of other branches of engineering.
At a good Materials Science program, expect to become familiar with a range of equipment and techniques, including electron microscopy, cathodoluminescence and electron beam-induced current imaging, photoluminescence, dielectric and anelastic relaxation techniques, ultrasonic methods, magnetotransport measurements, and x-ray. Also, keep in mind that many programs have partnerships with corporations, including biggies such as Kodak, IBM, Exxon, and almost any other company you can think of that makes things out of cutting edge substances.
Recent innovative work in Materials Science includes the exploration of more environmentally friendly substances for manufacturing and energy sources. After all, fossil fuels are some of the most highly used materials on this planet – maybe with this degree you can help the world find a better energy source.
As with other engineering fields, qualified female applicants are in high demand in the workforce.
The typical master’s degree takes one year of full time study. A master’s degree candidate may earn either a Master of Science in Materials Science and Engineering or Solid State Science and Engineering.
Doctorate programs are mainly for those individuals who aspire to teach at the university level or to engage in some serious research and development work. The doctoral degree typically conferred is either a Ph.D. in Materials Science or a Doctor of Engineering Science (Eng.Sc.D.). A doctorate will take several years beyond what it takes to earn a master’s degree. The total length of time will depend on the specific field of research chosen.
There really is no typical materials science career path. It is possible to work almost anywhere where things are made, from Boeing to Harley Davidson to Corning. The real issue is figuring out where your specific interests lie and then pursuing that field. Sure, superconductors are glamorous, but maybe you’ve always dreamed of making a better Nerf football, or were always annoyed at the way your Barbie’s face was so hard to clean – with a graduate degree in Materials Science you have the chance to change all that.
With a Doctorate you will be qualified to pursue an academic career.
Licensing is not required to get a job, per se. However, it is desirable, and will make your job search that much easier. If you want to work for a governmental organization, or in education, it may be required that you get licensed. Also, you will need a license to file plans or designs with public or private clients. The licensing process varies from state to state, but the basics are pretty standard: you need to take an exam, which you are qualified to sit for once you have four years experience in the field, in addition to an undergraduate engineering degree.
In 2023, the Bureau of Labor and Statistics reports that the median earnings for materials engineers was $104,100. The National Association of Colleges and Employers reports that starting salaries for those with a Master’s degree in Materials Engineering was $71,382.
The National Society of Professional Engineers had the scoop on all the latest technologies and licensing regulations.
The American Engineering Association provides a support system for all engineers. Included on the site are links to information for computer and electrical engineers.
As the official site of the Minerals, Metals, and Materials Society, this is the best place to find all sorts of Materials Science-specific information on the web. The site includes job information and the latest work in the field.
Thermodynamics, Kinetic Theory, And
Corrosion And Environmental Effects
Electronic And Magnetic Properties Of Solids
Engineering Materials
Introduction To Dislocation Theory
Lattice Vibrations And Crystal Defects
Materials And Energy In Society
Processing Metals And Semiconductors
Processing Of Ceramics And Polymers
Solid State Physics
Statistical Mechanics
Structural Analysis Of Materials
Thin Films And Layers
X-Ray Diffraction
Connect with business schools around the globe and explore your MBA options.
Check out our lists of best on-campus and online MBA programs and find the best program for your career goals.
Ranked master’s programs around the globe are seeking students like you to join their programs.
Get medical school application advice, USMLE prep help, learn what to expect in med school and more.