The term amorphous graphite is a contradiction in terms All graphite is crystalline by definition, therefore it is impossible for graphite to be amorphous. However, the term was applied due the anhedral (no visible crystallinity) morphology of this form of graphite. To the untrained eye a piece of amorphous graphite simply looks amorphous, like a lump of anthracite coal. However, it is much denser than anthracite, 2.2g/cc vs. 1.7g/cc, and is soft and lubricious. A much better descriptive term for this substance would be microcrystalline graphite or cryptocrystalline graphite. Both of these geological terms are used to describe a mineral which is composed of crystals so small that they cannot be resolved with either the naked eye or through standard optical microscopy techniques. However, the material is not glassy, there are crystals present. A good analogy to more common mineral specie would be the microcrystalline form of quartz known as chert. Amorphous graphite is to flake graphite and vein graphite as chert is to crystal quartz. The photo, below right, is a polarized light micrograph of amorphous graphite showing a mineral inclusion in the fine grain amorphous graphite background mass. (Polarized Light Image courtesy of J. Crelling, SIU)
Amorphous graphite is the least graphitic of the natural graphite types. The macroscopic morphology of this graphite variety is called massive which is indicative of its homogeneous non stratified, microcrystalline structure. The long range order common to crystalline substances is minimal in this graphite variety. Crystallinity is poor as is indicated by the fact that none of the common crystal forms (crystal faces) visible in flake and vein graphite are visible in amorphous graphite. Based on degree of graphitization as determined by X-ray diffraction studies, amorphous graphite typically shows graphite content of 20-40 percent as compared to 90+ percent for other natural graphite types.
The development of long range crystallographic order requires that some degree of pre-crystalline order be present in the proto-carbon, and that the energy supplied to this carbon be sufficient to promote graphitization. In the case of amorphous graphite it is apparent that only minimal pre-ordering of proto-crystallographic domains occurred.
Amorphous graphite is extracted using conventional coal-type mining techniques. Most of the current supply of amorphous graphite available in the United States is imported from Mexico and China. Previously other sources included Korea, Italy, and Rhode Island USA. Amorphous graphite is typically lower in purity than other natural graphite. This is due to the intimate contact between the graphite micro crystals and the mineral ash with which it is associated. This close graphite/ash association makes floatation and other density and chemical based separation techniques inefficient if not impossible. Commercial grades of amorphous graphite are available from 75-85% purity in particle sizes from 4-inch lumps to 3-micrometer powder.
Amorphous graphite tends to be much less reflective in both large a small grained sizes. Therefore, it has a darker color, bordering on black, while other natural graphite has a color closer to silver-gray. This makes amorphous graphite useful in coatings and other products, which require less reflectance. Also, this graphite variety is typically lower in cost than other types but is still lubricious, conductive, and chemically stable.
Amorphous graphite is used in many lubricant products especially greases, forging lubricants, etc. In applications where higher ash contents are acceptable or preferred this type of graphite is a good choice.
Certain applications such as mechanical seals require a certain degree of rubbing abrasion to provide the necessary lapping or cleaning of opposing rubbing surfaces. The ash content of amorphous graphite can provide the right balance of gentle abrasion required to perform this function. By selecting a properly sized amorphous graphite powder the user can control the size of the ash.
Asbury Carbons has literally hundreds of grades of amorphous graphite available. Grades are categorized based on particle size and purity and can be customized to fit any requirement. With 100+ years of experience in the grinding and sizing of amorphous graphite we can modestly state that we are experts at providing the right amorphous graphite for the job.