Graphite electrodes have found extensive applications due to several key reasons. Firstly, graphite exhibits excellent electrical conductivity. It allows for efficient transmission of electricity, which is crucial in various industrial processes such as electric arc furnaces used in steelmaking. In these furnaces, the high electrical conductivity of graphite electrodes enables the generation of intense heat required to melt and refine metals.
Secondly, graphite has a high melting point. It can withstand extremely high temperatures without melting or deforming easily. This property makes it suitable for applications where intense heat is involved, ensuring the stability and durability of the electrodes during operation.
Moreover, graphite electrodes possess good chemical stability. They can resist chemical reactions and corrosion in harsh industrial environments, maintaining their performance over an extended period.
Overall, the combination of excellent electrical conductivity, high melting point, good chemical stability, and relatively low weight has made graphite electrodes products highly favored and widely used in a multitude of industrial sectors that rely on high-temperature and electrical processes.