Battery Graphite

What is graphite

Battery graphite is processed from natural flake graphite into a +99.95% high purity product suitable for anode manufacturing.

Graphite and its uses

There are existing traditional uses for graphite; refractories, foundries, lubricants etc which are growing modestly and some new innovations, but this is being swamped by new demand for graphite suitable for use in electric vehicles.

Traditional demand for graphite is largely tied to the steel industry where it is used as a liner for ladles and crucibles, as a component in bricks which line furnaces (“refractories”), and as an agent to increase the carbon content of steel. In the automotive industry it is used in brake linings, gaskets and clutch materials. Graphite also has a myriad of other emerging uses in batteries, thermal management in consumer electronics, lubricants, fire retardants, and reinforcements in plastics.

What is Natural Flake Graphite

Natural Flake Graphite occurs in host rocks such as quartz-mica schist, feldspathic or micaceous quartzite and gneiss. Flake graphite may also occur in metamorphosed carbonate rocks, though these occurrences are currently of little economic significance. Flake graphite deposits are usually strata bound, with individual beds or lenses ranging from 30cm to more than 30m thick, and extending for lengths of two kilometres or more. Ore bodies are normally tabular, occasionally lenticular, and occur locally as irregular bodies in the hinge zones of folds. Most economic deposits of flake graphite are of Archean to late Proterozoic age. These rocks may contain up to 90% graphite, although 10-15% graphite is a more typical grade for an ore body.

Battery Graphite Market

China is the only producer of commercial quantities of  battery spherical graphite, which requires hydrofluoric (“HF”) acid to achieve 99.95% carbon grade.This is a very toxic chemical. Hubei and Shandong provinces are the largest producing areas and there is increasing pressure on producers due to environmental and occupational health & safety regulations.

HF acid is critical for the production of high purity flake and battery graphite in China.

As global demand for battery graphite rapidly expands, there is an increasing customer requirement for new, more geographically diversified and environmentally sustainable sources of high-quality supply. Feedback from lithium-ion battery anode manufacturers indicates that demand from e-mobility and energy storage markets will continue to grow strongly.

The focus on ensuring responsible and sustainable supply chains which is already evident in cobalt markets, is expected to support the adoption of cost competitive and environmentally friendly products.