Beryllium-cobalt copper has higher strength and hardness, electrical and thermal conductivity, good wear resistance and abrasion resistance, and its hardness, strength, electrical and thermal conductivity are significantly improved after aging treatment, and it is easy to weld. Beryllium-cobalt-copper parts are widely used in motor commutators, spot welders, seam welders, electrodes for welders, and other parts that require strength, hardness, conductivity, and padding at high temperatures.
The use of beryl cobalt copper: it can be widely used in molds, cores, inserts that require rapid and uniform cooling, especially high thermal conductivity, corrosion resistance and good polishing requirements. The current factory specifications of beryllium-cobalt copper include round and flat bars that have been forged and rolled, pipes that have been extruded, mandrels that have undergone mechanical cutting, ingots and various cast profiles.
When used as an insert in a plastic mold, it can effectively reduce the temperature of the heat concentration area, simplify or eliminate the design of the cooling channel. Existing factory specifications include: round and flat bars that have been forged and rolled, pipes that have been extruded, mandrels that have been machined, ingots and various cast profiles. The excellent thermal conductivity of beryllium cobalt copper is about 3 to 4 times better than that of mold steel. This feature can ensure that plastic products are cooled quickly and uniformly, reducing product deformation, unclear shape details and similar defects, and in most cases can significantly shorten the production cycle of the product.
The use of beryl cobalt copper: it can be widely used in molds, cores, inserts that require rapid and uniform cooling, especially high thermal conductivity, corrosion resistance and good polishing requirements. The current factory specifications of beryllium-cobalt copper include round and flat bars that have been forged and rolled, pipes that have been extruded, mandrels that have undergone mechanical cutting, ingots and various cast profiles.
When used as an insert in a plastic mold, it can effectively reduce the temperature of the heat concentration area, simplify or eliminate the design of the cooling channel. Existing factory specifications include: round and flat bars that have been forged and rolled, pipes that have been extruded, mandrels that have been machined, ingots and various cast profiles. The excellent thermal conductivity of beryllium cobalt copper is about 3 to 4 times better than that of mold steel. This feature can ensure that plastic products are cooled quickly and uniformly, reducing product deformation, unclear shape details and similar defects, and in most cases can significantly shorten the production cycle of the product.