Graphite rods are used for non-metallic products. They have excellent electrical conductivity, excellent thermal conductivity, excellent high temperature resistance and corrosion resistance. Therefore, they are widely used in the electronics industry, graphite furnaces and resistance heating equipment, for heating and melting metal materials, and high temperature treatment, the manufacture of heat-conducting parts, heating elements of high-temperature furnaces, vacuum furnaces and arc furnaces, heat transfer media for melting metals, and the manufacture of corrosion-resistant equipment and pipelines. In addition, graphite rods can also be used in the nuclear energy industry, aerospace industry, as well as in the fields of mapping, typing, etc. The maximum operating temperature can reach 3000℃. It is easy to oxidize at high temperatures. Except for vacuum, it can only be used in neutral atmosphere or reducing atmosphere. It has a small thermal expansion coefficient, a large thermal conductivity coefficient, and better processing performance than SiC and MoSi2 rods.
Graphite rods are used for non-metallic products. They have excellent electrical conductivity, excellent thermal conductivity, excellent high temperature resistance and corrosion resistance. Therefore, they are widely used in the electronics industry, graphite furnaces and resistance heating equipment, for heating and melting metal materials, and high temperature treatment, the manufacture of heat-conducting parts, heating elements of high-temperature furnaces, vacuum furnaces and arc furnaces, heat transfer media for melting metals, and the manufacture of corrosion-resistant equipment and pipelines. In addition, graphite rods can also be used in the nuclear energy industry, aerospace industry, as well as in the fields of mapping, typing, etc. The maximum operating temperature can reach 3000℃. It is easy to oxidize at high temperatures. Except for vacuum, it can only be used in neutral atmosphere or reducing atmosphere. It has a small thermal expansion coefficient, a large thermal conductivity coefficient, and better processing performance than SiC and MoSi2 rods.