Material engineering is the engineering field of research, development, production and application of metallic materials, inorganic non-metallic materials, polymer materials and composite materials. Material engineering master's degree authorized unit trains senior engineering and technical personnel engaged in research and development of new materials, material preparation, material property analysis and modification, and effective use of materials.
As a materials engineering major, you’ll use math and science to study ceramics, metals, polymers (such as glass, rubber, and plastic), and other materials. You’ll learn how to invent and manufacture new materials.
New materials are one of the greatest achievements of every era. Whether it is civil, chemical, architectural, nuclear, aviation, agriculture, machinery, biomedicine or electrical engineering, new technologies are always the open door to new materials.
Materials engineers have been at the forefront of all these areas and many other scientific fields. Material engineering affects our lives every time we buy or use new equipment, machines or structures.
Experience has shown that all useful properties of a material are closely related to its structure, including which atoms exist, how the atoms are connected, and how the radicals are aligned throughout the material. Most importantly, we understand how this structure and the resulting properties are controlled by the processing of the material.
Chemical Engineers Vs. Materials Engineer
There is a high degree of overlap between the two fields of chemical engineering and materials engineering, and there is a great overlap between the academic and research fields. Industrial overlap is also continuing, albeit not that big. Chemical and materials engineers use their design skills and engineering knowledge to create and analyze products to ensure they meet expectations. Chemical engineers are more concerned with chemical processes and production methods than material engineers, while materials engineers focus on making new materials, improving existing materials, and determining which materials to use for a particular product. They can use their skills to develop new materials or test existing materials so they can find the best materials for building other products. Chemical engineers often use hazardous materials and may need to establish safety standards for specific tasks. In addition to other responsibilities, materials engineers are responsible for evaluating materials to determine their environmental friendliness and durability.
Some people will simply answer that chemical engineering is related to liquids and gases, while material engineering focuses only on solids. But this view is one-sided. There are some solid materials projects in chemical engineering, as well as material engineering projects involving liquids. Material engineering focuses on understanding the link between the macroscopic properties of a material and its atomic properties.
In fact, most chemical engineers and materials engineers master the basics of each other’s fields. So these two majors have many common courses.
Chemical engineers usually study chemical engineering or similar disciplines and must have a bachelor's degree. They are engaged in chemical manufacturing, research and other types of manufacturing. It is common for them to work in a laboratory or office, and those working in the manufacturing industry can also visit locations to observe product processing or manufacturing. They apply their knowledge to the processing of goods such as food and paper and create new products. Safety is very important in this area because chemical engineers often use hazardous substances such as fuels, chemicals and drugs, so chemical engineers need to pay attention to details and strictly follow safety protocols. Material engineers contribute to the production process by evaluating the materials used in the product. Their work helps ensure that the best material types are used in production so that the product works properly and safely. The most common area of research for materials engineers is materials science and requires a bachelor's degree to enter this profession. Some materials engineers focus on research, while others work in manufacturing and may involve the manufacture of items such as vehicles, metals or plastics. Overtime is common in this profession, and the material engineer's work environment may vary depending on the specific industry in which they work. In terms of employment, the vast majority (about 90%) of chemical engineers are engaged in manufacturing and are most concentrated in the chemical manufacturing, pharmaceutical and petroleum industries. And material engineers, they are evenly distributed in various industries, and employment is very extensive.
Materials engineers develop, process, and test materials used to create a range of products, from computer chips and aircraft wings to golf clubs and biomedical devices. They study the properties and structures of metals, ceramics, plastics, composites, nanomaterials (extremely small substances), and other substances in order to create new materials that meet certain mechanical, electrical, and chemical requirements. They also help select materials for specific products and develop new ways to use existing materials.
material physics and chemical engineering
material engineering theory basis
material structure and performance
material structure and performance testing technology
material synthesis and preparation technology process control principle
computer technology application
modern material research method
Common skills gained from this degree
- Analytical skills
- Math skills
- Speaking skills
- Writing skills
- Problem-solving skills