Views: 0 Author: Site Editor Publish Time: 2026-01-14 Origin: Site
In the complex system of industrial manufacturing, the performance of molds directly affects production efficiency, product quality and
cost control. Graphite molds, with their unique performance advantages, play a significant role in numerous fields.
The casting of non-ferrous metals has long been confronted with numerous challenges brought about by traditional molds. Ordinary
molds have poor heat conductivity, making it difficult to precisely control the metal solidification process. The castings often exhibit
uneven crystallization, accompanied by surface roughness and large dimensional deviations. These defects not only increase the
subsequent processing costs but also result in a high waste rate, significantly affecting the enterprise's efficiency.
The graphite mold is made of artificial graphite material, which has excellent thermal conductivity and can evenly conduct heat. This is
beneficial for the formation of a more uniform crystalline structure in the metal or alloy during solidification. At the same time, its self-
lubricating property effectively reduces friction between it and the metal, minimizing damage to the surface of the ingot and improving
the dimensional accuracy and surface quality of the ingot. To a certain extent, it simplifies the subsequent processing procedures and
has a positive impact on improving product quality and production efficiency.
In the field of pressure casting, the durability of molds is of utmost importance. Traditional molds suffer severe wear in the high-
pressure and high-temperature working environment, resulting in a short service life. Frequent replacement of molds not only
interrupts production but also significantly increases production costs.
The pressure casting mold made of artificial graphite has certain advantages when dealing with high-pressure and high-temperature
working conditions due to the wear-resistant and corrosion-resistant properties of the graphite material. In practical applications,
using this mold to produce zinc alloy and copper alloy castings can extend the service life of the mold to a certain extent, reduce
equipment maintenance costs, and ensure the continuity of production.
