The world of metallurgy is an interesting one, if not an underappreciated one too. Metallurgy is the mixture of science and the applications it has on our society. It is used nearly everywhere without many people realizing how important it is.
For this reason, people need to learn more about it to see what it can offer and what new information you can gain. The metallurgy industry has directly benefited your life in more ways than you can count, so it is important to know why it is so useful. Here are some of the interesting things we can all learn from the metallurgy industry.
What is Metallurgy Used For?
The role of metallurgy in today’s society is so broad that it is the backbone of a lot of other industries. The field of engineering as a whole is closely linked to metallurgy, especially mechanical and material engineering. Other sectors of our society include automobile, train, aircraft, and other vehicle manufacturing, building construction, home metals (jewelry, cutlery), firearms, and almost anything that uses metals as the primary material. Every day you get into a car or interact with metal objects, whether big or small, so metallurgy surrounds us and is vital for our society.
What Equipment is Used in Metallurgy?
Metallurgy requires a lot of specialized equipment to get jobs done. Dealing with molten metals is not an easy task, so industrial equipment is used in many different ways, with the most obvious being furnaces. Crushers, centrifugal jars, grinding mills, and agitators are other examples of metallurgical equipment, both industrial and laboratory use. Smaller equipment through the use of a boron nitride tube or sieving apparatus are important to the overall process as well, so it is good to know that metallurgy is not all gigantic machines. The entire metallurgy industry needs many components to function properly, big or small.
What Future Does Metallurgy Have?
Some might think that the future of metallurgy is in danger because of the desire to move towards more environmentally friendly industrial practices, but that is not true. The future innovation and implementation of material sciences are still going to be reliant on many common materials we use today like steel and aluminum, but the metallurgy industry is ready to tackle those challenges.
The future production of products for commercial, industrial, scientific, and military use is going to be more innovative as well. One big area of focus is on batteries, which is a hot topic regarding electric cars and other disruptive technologies. Metallurgy is in no rush to be replaced by another form of science, it will merely adapt to the needs of a changing society, but many of the materials used in contemporary metallurgy will be adapted for the technologies to lay ahead.
The industry of metallurgy is incredibly important for our society. After the industrial revolution, it became apparent that steel and metals would be the future of our material world, and that has become ever so true. Metallurgy can teach us a lot by examining the uses, functions, and future it holds which is why we should be educating ourselves on these important industries that shape the world around us.
Metallurgy Contribution towards GDP
The rise in population, growth in the economy, urbanization and the increasing domestic requirements, has created a strong demand for minerals and metals. In the last few years, India has seen significant growth in minerals with the government granting leases for longer duration of 20 to 30 years.
Learn the practical metallurgy concepts and how to apply them to real-world problems and decisions.
Many engineers involved in product design and manufacturing haven’t had much metallurgy and metals engineering training. So, they get stuck when component design decisions and component reliability and quality problems come up that involve metals.
Metallurgy eLearning Courses and Assessments offered by Tata Steel Digie-Shala has been designed to provide the practical skills that high-value engineering organizations need to apply to real-world problems and decisions in order to succeed in competitive global markets. These courses helps close the knowledge gap, enabling engineers to take advantage of opportunities to:
- Make better informed decisions.
- Design better, low-cost components.
- Fix quality and reliability problems faster.
Have better conversations with suppliers, customers, and metallurgical labs.