If you’re passionate about building bridges and tunnels, mapping out a rail system for a country, or designing metal products that will help people in the medical industry, then an education in metals engineering might be perfect for you. Read on to find out why.
Metallurgy degree pathways
Metallurgists spend a lot of time learning about metals properties and how they respond to various weathering conditions. Most metallurgists have a deep background in physical sciences and engineering. They develop very analytical thinking abilities because they must comprehend a wide swath of information.
Metallurgy degree pathways will highlight the type of knowledge you can expect from each course you undertake, so be sure to research those as well as the variety of courses available to learn more about their specific teaching style.
A Metallurgy degree will give you the critical skills in manufacturing, engineering, design, research and development in industries like aerospace, automotive, chemical processing, food processing, power generation and petrochemicals. It comes with the opportunity to work in companies like Tesla Motors.
The scope of engineering metals
- With many different types of metals, it’s no wonder why so many people are choosing to study the field.
- With so many materials to work with, you never know what you might discover. Some say that nickel is an underappreciated metal because its functionality is still being discovered one world at a time. Aluminum always seems like an industry mainstay because it’s used in all types of products ranging from mobile phones to airplanes. Metallurgy covers the workings of metals from a scientific standpoint. It entails all aspects of metal mining and refining, as well as how to work with the various materials that arise from these processes.
- The course gives you a practical understanding of metallurgical engineering process management and management principles.
- Engineers of metals work on projects ranging from designing machinery to growing solar cells from molten silicon. Go ahead and call them machine designers, fabricators, manufacturers, process engineers know. What they do is a complex blend of chemistry and art that can be applied in vastly different ways to various industries.
What metal engineers do?
- Metal engineers combine scientific and mathematical knowledge with creativity to come up with new ways for metals — such as metals in bridges, cars, and skyscrapers–to be manufactured efficiently.
- They design tools like laser cutters and CNC machines that allow manufacturers to avoid expensive hand-finishing, and they work to strengthen structural steel and aluminum alloys because of their low weights.
- Metal engineers also find ways to recycle what we already use (it takes 25,000 tons of steel scraps to make a single car).
- Perhaps the best thing about metal engineering is its skillset: metal engineers use both art and science alike.
- Metal engineers are part of the manufacturing industry. Their jobs require them to take ideas for products, tools, and materials and create finalized projects. They do this by taking the original design specifications and creating drawings to sends off to manufacturers or construction companies who will be doing the work.
- Metal engineers are needed by manufacturing companies or manufacturing-intensive companies in all sectors, all across the globe, to design new products and processes with increased energy efficiency and increased use of innovative materials – often to replace petroleum-based plastics.
The duties of different types of engineering metal work
- The difference in the metal work is based on what type of material they are processing.
- A casting engineer will design, make, and inspect castings – which are structural parts made by heating liquid or slipcasting to form objects.
- Engineers specialize in different types of metal work. For example, an engineer may specialize in the designing of energy-efficient building frameworks. While they can work on any type of metal, their job is always related to metal safety regulations, design regulations, and general regulations pertaining to each country’s Infrastructure for unusual conditions. T
- here are so many duties and tasks than can be done by a metals engineer. For example, someone who chooses to study the job could become an industrial designer for developing tools or industrial equipment, plastics product developer, fashion fuser, foundryman, general-mechanic-engineer, crash mechanics investigator, plating worker, machinist and toolmaker.
Reasons to take up a career in metals
- Metal engineers, also called metallurgists, do not deal with the basics such as nails and screws. Instead they focus on more advanced topics such as novel metal alloys and processes for treatment or conversion of different metals.
- Metal engineers need to keep up-to-date with current developments in their industry but also use mathematics and science extensively to solve complex problems.
- There are many benefits of studying metals engineering. For example, an increased chance of employment and a secure future. In addition, professionals working in the field can earn more income than those joining similar fields. And because this degree doesn’t require a commitment to follow a certain line of work, it is perfect for those who enjoy variety in their job.
Metals engineering is a wonderful career option for those who love to solve problems and want to take care of the Earth’s resources, such as plants and animals. It is also something that you can be proud of because by taking up this profession, you become part of a great team that improves people’s lives. Metals Engineering is one of the most versatile engineering disciplines. Graduates with a degree in Metals Engineering can easily transfer to jobs in any number of other technical areas – it’s a field that opens doors. This STEM degree is quickly growing in popularity so now’s a great time to be a graduate! If you have a passion for materials and engineering, studying metals engineering could be an excellent education option for you.