When engineers and materials scientists talk about joining parts for service temperatures that would melt solder, degrade epoxies, or oxidize brazing alloys, one solution rises above the rest: high temperature graphite adhesive.
Graphite is widely used in industries that operate under extreme conditions—high temperatures, aggressive chemicals, and heavy mechanical loads. Whether in vacuum furnaces, metallurgical molds, electrodes, or battery casings, graphite components are prized for their thermal conductivity, chemical inertness, and strength.
Industrial furnaces and foundry equipment operate under some of the most extreme conditions known in manufacturing—exposure to temperatures exceeding 1,500 °C, corrosive gases, high thermal cycling, and mechanical wear.
When engineers and materials scientists talk about joining parts for service temperatures that would melt solder, degrade epoxies, or oxidize brazing alloys, one solution rises above the rest: high temperature graphite adhesive.
Graphite is an indispensable material in a wide range of industrial applications, particularly where extreme temperatures, corrosive environments, and high conductivity are present.
Graphite is widely used in industries that operate under extreme conditions—high temperatures, aggressive chemicals, and heavy mechanical loads. Whether in vacuum furnaces, metallurgical molds, electrodes, or battery casings, graphite components are prized for their thermal conductivity, chemical inertness, and strength.
