Median annual earnings of materials engineers were $62,590 in 2002. The middle 50 percent earned between $49,810 and $77,500. The lowest 10 percent earned less than $39,360, and the highest 10 percent earned more than $92,690.
According to a 2003 salary survey by the National Association of Colleges and Employers, bachelor's degree candidates in materials engineering received starting offers averaging $44,680 a year.
Materials engineers are involved in the extraction, development, processing, and testing of the materials used to create a diversity of products, from computer chips and television screens to golf clubs and snow skis. They work with metals, ceramics, plastics, semiconductors, and combinations of materials called composites to create new materials that meet certain mechanical, electrical, and chemical requirements. They also are involved in selecting materials for new applications.
There are numerous new developments within materials engineering that make it possible to manipulate and use materials in various ways. For example, materials engineers have developed the ability to create and then study materials at an atomic level using advanced processes to replicate the characteristics of materials and their components with computers.
Most metallurgical engineers work in 1 of the 3 main branches of metallurgy—extractive or chemical, physical, and process. Extractive metallurgists are concerned with removing metals from ores and refining and alloying them to produce suitable inputs for a number of industrial processes. Physical metallurgists study the nature, structure, and physical properties of metals and their alloys to find the best methods of processing basic materials into final products. Process metallurgists develop and improve metalworking processes such as casting, forging, rolling, and drawing. Most materials engineers specialize in a particular material. For example, metallurgical engineers specialize in metals, while ceramic engineers develop ceramic materials and the processes for making ceramic materials into useful products. Ceramics include all nonmetallic, inorganic materials that generally require high temperatures in their processing. Ceramic engineers work on products as diverse as glassware, automobile and aircraft engine components, fiberoptic communication lines, tile, and electric insulators.
Employment of materials engineers is expected to grow more slowly than the average for all occupations through 2012. Although many of the manufacturing industries in which materials engineers are concentrated are expected to experience declines in employment, more materials engineers will be needed to develop new materials for electronics, biotechnology, and plastics products. As manufacturing firms contract for their materials engineering needs, employment growth is expected in professional, scientific, and technical services industries. In addition to those arising from employment growth, job openings will result from the need to replace materials engineers who transfer to other occupations or leave the labor force.
.For information on careers, education, accreditation, and other topics related to materials engineers, contact:
See the introduction to the section on engineers for information on working conditions, training requirements, and other sources of additional information.
About The Department of Metals and Materials Engineering, UBC Why UBC. Canadian and international students benefit equally from the intellectually challenging environment at UBC. Why Vancouver. It is renowned for its natural beauty, that includes more than 190 parks, and is consistently rated in the top three of the world's most livable cities. An optional cooperative education program is available which permits students to obtain twenty months of related experience in the last three years of the program.
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They work with metals, ceramics, plastics, semiconductors, and combinations of materials called composites to create new materials that meet certain mechanical, electrical, and chemical requirements. There are numerous new developments within materials engineering that make it possible to manipulate and use materials in various ways. Materials engineers specializing in metals can be considered metallurgical engineers, while those specializing in ceramics can be considered ceramic engineers. Extractive metallurgists are concerned with removing metals from ores and refining and alloying them to obtain useful metal. Physical metallurgists study the nature, structure, and physical properties of metals and their alloys, and relate them to the methods of processing them into final products.
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Almost every major engineering achievement has been made possible by advancements in materials. faculty members from the core of the MSE department. The MSE department is primarily housed in McNutt Hall, with additional research facilities in Fulton Hall, the Materials Research Center (Straumanis Hall), and the TRB. Produce ceramic teeth, bones, and joints to replace parts of the human body or improve advanced medical equipment to continue research in the fight against disease. Metallurgical Engineering Metallurgy is the discipline that deals with procedures used in extracting metals from their ores, purifying and alloying metals, and creating useful objects from metals.
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Navigation Join Us. Keyword Search Browse Forums Jobs Eng-Tips Store Start A Group Tell A Friend Donate Come Join Us. Geography Where in the world do Eng-Tips members come from. Click Here To Find Out. What should be the temperature, pressure and intermediate material required for this making this joint.
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They work with metals, ceramics, plastics, semiconductors, and combinations of materials called composites to create new materials that meet certain mechanical, electrical, and chemical requirements. Materials engineers specializing in metals can be considered metallurgical engineers, while those specializing in ceramics can be considered ceramic engineers. Extractive metallurgists are concerned with removing metals from ores and refining and alloying them to obtain useful metal. Physical metallurgists study the nature, structure, and physical properties of metals and their alloys, and methods of processing them into final products. The middle 50 percent earned between $43,890 and $77,730.
Summary of: http://www.umsl.edu/services/govdocs/ooh20002001/224.htm
They work with metals, ceramics, plastics, semiconductors, and combinations of materials called composites to create new materials that meet certain mechanical, electrical, and chemical requirements. There are numerous new developments within materials engineering that make it possible to manipulate and use materials in various ways. Extractive metallurgists are concerned with removing metals from ores and refining and alloying them to produce suitable inputs for a number of industrial processes. Most materials engineers specialize in a particular material. The middle 50 percent earned between $49,810 and $77,500.
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Two kinds of damage-tolerant ceramic-ceramic composites are being developed. One incorporates a continuous reinforcing phase, such as a fiber; the other, a discontinuous reinforcement, such as whiskers. Continuous-fiber-reinforced materials do not fail catastrophically. After matrix failure, the fiber can still support a load. Whiskers can be produced by heating SiO2 and carbon sources with a metal catalyst in the proper environments.
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Let's first take a look at what "materials people" do. Then composites and semiconductors became important as their properties became more well understood. The destruction of rain forests and policy there will make wood unlikely. The possibilities for other structures are up to the imagination of engineers. Materials scientists can do their best in the other areas in order to keep the American economoy strong and at the forefront of technological development.
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New materials are also chosen by these engineers for new applications and products. Most metallurgical engineers are employed in one of the three branches of metallurgyÑextractive or chemical, physical, and process. In 2002, materials engineers were employed in around 24,000 jobs. Materials engineers are widely spread in the manufacturing sector because materials are building blocks raw materials for other goods. Materials Engineering Job and Employment Opportunities It is predicted that the employment of materials engineers will increase through 2012, but slower as compared to other occupations.
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