What are TUR Type Melting/Holding Furnaces and What Do They Do?

The metal industry is one of the cornerstones of the modern world and is indispensable for many industrial applications. Metal production fuels industries such as construction, automotive, electronics, power generation and many more. However, metals found in nature are usually in ore form and must be processed before they can be used. This is where TUR Type Melting/Holding Furnaces come into play. These special furnaces are used for melting, temperature holding and pouring of metals. In this article, we will discuss what TUR Type Melting/Holding Furnaces are, how they work, their role and importance in the industry.

What are TUR Type Melting/Holding Furnaces?

TUR Type Melting/Holding Furnaces are known as special furnaces designed to perform melting and temperature holding of metals. These furnaces have a high temperature resistant chamber made of steel or refractory material and are used to melt or hold the metals inside at a specific temperature. TUR is a specific classification of this type of furnace and may have some special features.

Usage Areas of TUR Melting/Holding Furnaces

TUR Type Melting/Holding Furnaces are used for a range of industrial applications and the uses of these furnaces include

Iron and Steel Production: TUR Type Melting/Holding Furnaces play a critical role in the smelting of iron ore and steel production. Thanks to their ability to operate at high temperatures, these furnaces enable iron ore to be smelted and then enriched with various alloys to produce steel.

Aluminum Production: Aluminum is important for many industries due to its properties such as light weight and corrosion resistance. TUR Type Melting/Holding Furnaces are used in the process of melting aluminum ores and producing aluminum.

Copper and Brass Production: Metals such as copper and brass are widely used in electrical transmission and industrial applications. TUR Melting/Holding Furnaces are used for melting and casting these metals.

Foundry Industry: The metal casting industry plays a fundamental role in the production of parts for many industries. TUR Type Melting/Holding Furnaces are used for melting and pouring of different metals in the casting industry.

Hot Process Industry: The hot working industry includes processes such as forming, hardening or hot rolling of various metal parts. TUR furnaces are used in such hot working applications.

Working Principle of TUR Melting/Holding Furnaces

TUR Type Melting/Holding Furnaces are generally powered by electrical energy or fuel. The basic working principle of these furnaces is to ensure that the metal is melted or kept at high temperature. The chamber inside the furnace is filled with the metal to be melted or kept at temperature. A high-temperature environment is then created using an electric arc or a fuel-fired combustion chamber. This high temperature melts or holds the metal at temperature and the desired process is carried out.

Importance of TUR Melting/Holding Furnaces

TUR Type Melting/Holding Furnaces perform a fundamental process in the metal industry and are critical to many industries. These furnaces make it possible to prepare metals for various applications. They are indispensable for iron and steel production, the construction industry, the automotive sector, the electronics industry, aerospace and many other sectors.

The casting industry plays an important role in the production of parts and TUR furnaces are used in the melting and pouring of different metals in the casting industry.

In conclusion, TUR Type Melting/Holding Furnaces are an indispensable part of metal processing technology. These furnaces meet the needs of various industries by successfully melting, holding at temperature and casting metals. With the continuous growth and development of the metal industry, TUR furnaces will maintain their importance and develop further. For companies operating in this sector, such as Erapress, these furnaces are indispensable tools to make production processes more efficient and produce high quality metals.