What is the Carburetant used for

What is the Carburetant used for

01. recarburize

The carburetant is mainly used to increase the carbon content in the material. An increase in carbon content leads to an increase in the strength of the material, but it also makes it more brittle. Therefore, when using a carburetant, the carbon content needs to be adjusted according to the specific needs of the product to meet the performance requirements of different castings.

02 .Casting

carburetant in the casting process is mainly used to increase the carbon content of liquid iron. When casting cast iron and steel, castings have specific requirements for carbon content. The role of the carburetant is to meet this demand and ensure that the carbon content in the liquid iron meets the expectations, thus ensuring the quality and performance of the casting.

03 .Increase scrap volume

carburetant plays a role in increasing the amount of scrap steel in casting production. The use of a carburizer can reduce the amount of pig iron used, or even eliminate pig iron altogether in some cases. This change is mainly due to the fact that the carburetant can effectively adjust the carbon content in the casting, thereby optimizing its mechanical properties. By increasing the amount of scrap, not only can the cost be reduced, but also the environmental impact can be reduced, as pig iron usually contains more impurities. As a result, the carburetant not only improves the quality of the casting, but also contributes to a more sustainable production process.

04. Prevent or reduce the tendency to shrink

The carburetant is mainly used to prevent or reduce the tendency to shrink. The tendency to shrink is a common problem in casting, welding or other metalworking processes, which can cause the material to deform or develop cracks. The carburetant adjusts the chemical composition of the metal by increasing the carbon content, thus effectively reducing the tendency to shrink. This adjustment optimizes the mechanical properties of the metal, improving its cracking resistance and ductility, thereby ensuring the stability of the processing process and the quality of the final product.

05. Increase the carbon content in liquid iron

carburetant is mainly used to increase the carbon content in liquid iron. In the process of iron or steel making, carbon content is an important parameter, which directly affects the physical and chemical properties of liquid iron or steel. carburetant usually contains a high carbon element, by adding to the iron liquid, can effectively increase the carbon content, so as to meet the specific production needs or improve the properties of the iron liquid. In addition, adjusting the carbon content can also affect the hardness, plasticity, wear resistance and other mechanical properties of liquid iron or liquid steel. Therefore, carburetant plays an indispensable role in metal smelting.

06. Make up the carbon content burned during the smelting process of steel

The carburetant is mainly used in the process of steel melting to make up for the carbon content reduced by burning loss. In steel production, carbon is an important element, which affects the mechanical properties and chemical properties of steel. Due to the high temperatures and chemical reactions in the smelting process, the carbon content in the steel may be reduced. In order to ensure the quality and performance of the steel, it is necessary to add a carburetant to restore or maintain the appropriate carbon content. This not only increases the strength and hardness of the steel, but also optimizes other properties such as corrosion resistance. Therefore, the carburetant plays a key role in steel smelting.

07. Fine-tune the carbon composition in the molten steel

carburetant is mainly used to fine-tune the carbon composition of molten steel. In the process of steel production, carbon content is one of the key factors affecting steel properties. carburetant usually contain high levels of carbon, and by adding them to molten steel, the carbon content can be precisely adjusted to optimize the mechanical properties, corrosion resistance, and other related characteristics of the steel. In addition, the carburetant can be combined with other alloying elements to further customize the composition of the steel to meet specific application needs.