• 0
  • 0

Global natural flake graphite market trend 2023-2030 What is the application of natural flake graphite? by Newsseriesnow

Koalas were declared endangered in eastern Australia on Friday, with more and more koalas dying from disease, habitat loss, and other threats. Earlier, the koala was considered a vulnerable species, and the Commonwealth Department of the Environment changed its protection level to endangered on the east coast of Queensland, New South Wales, and the Australian Capital Territory. Many koalas in Australia are infected with chlamydia. The disease can cause blindness, infection, and infertility. Last year, the Australian Koala Foundation said Australia had lost about 30 percent of its koala population in the past three years. Without immediate action, the species could become extinct by 2050.
Unlike koalas, which are on the brink of extinction, the market demand for natural flake graphite will grow substantially.

Natural flake graphite  are widely used in advanced refractories and coatings in the metallurgical industry. Such as magnesia carbon bricks, crucibles, etc. Pyrotechnic material stabilizer in military industry, desulfurization accelerator in smelting industry, pencil lead in light industry, carbon brush in electrical industry, electrode in battery industry, catalyst in fertilizer industry, etc. After in-depth processing of flake graphite, graphite milk can be produced, which is used in lubricants, mold release agents, wire drawing agents, conductive coatings, etc. It can also produce expanded graphite, which is used as raw material for flexible graphite products, such as flexible graphite seals and flexible graphite composite products.


As a functional filler of coatings, flake graphite is mainly used in anti-corrosion coatings, fire-retardant coatings and conductive coatings.

As an anti-corrosion material, it is an anti-rust primer made of carbon black, talc and oil, which has good chemical and solvent corrosion resistance; if chemical pigments such as zinc yellow are added to the formula, the anti-rust effect is better.


Expandable graphite is used as a fireproof filler, which is a graphite interlayer compound obtained by chemical or electrochemical treatment with natural graphite flakes as raw materials. Under the condition of heat, the volume of expandable graphite expands rapidly (up to 300 times), which suffocates the flame, and at the same time generates expandable materials, which can isolate the flame, delay or interrupt the spread of the flame, and is non-flammable, with good flexibility and high surface energy. , the carbonized layer has good strength. However, the volume and amount of the expansion body should be selected appropriately. The test shows that 150um particles, 30% expansion ratio, and 5% dosage are the most suitable.

Graphite flakes can be directly used as carbon-based conductive fillers or made into composite conductive fillers for conductive coatings. However, due to the large amount of graphite flakes added, the performance of the coating will become brittle and its application will be limited. Therefore, measures should be taken to further improve the conductivity of graphite and effectively reduce the amount of graphite flakes added. The domestic Tianhua Chemical Machinery Research Institute has developed a high-temperature corrosion-resistant resin as the base material and large flake solid graphite flakes with strong electrostatic conductivity as the main aggregate, which has high body strength and good wear resistance.

The chopped fiber material with good resistance to deformation and cracking is a solvent-free thick-film conductive coating with functional fillers. The coating has the characteristics of anti-corrosion medium penetration, low curing residual stress, good resistance to matrix deformation and cracking, stable construction performance, and long-term static electricity conduction. It can be used for electrostatic conductive coating on the inner wall of crude oil storage tanks. According to data reports, electroless plating technology is used to coat graphite powder with metals, such as copper, nickel, silver, etc. to prepare composite conductive fillers, which are used in conductive coatings in an amount of 30%, which not only has good electrical conductivity, but also has further corrosion resistance. improve.

High-quality natural flake graphite manufacturer

Luoyang Moon & Star New Energy Technology Co., LTD, founded on October 17, 2008, is a high-tech enterprise committed to developing, producing, processing, selling, and technical services of lithium-ion battery anode materials. After more than ten years of development, the company has gradually developed into a diversified product structure with natural graphite, artificial graphite, composite graphite, intermediate phase and other harmful materials (silicon-carbon materials, etc.). The products are widely used in high-end lithium-ion digital power and energy storage batteries.

If you are looking for graphite or lithium battery anode material, click on the needed products and send us an



COVID-19 has led to many sites shutting down. What is the impact on China's foreign trade enterprises as a whole and small, medium and micro foreign trade enterprises?

. It is learned that some foreign trade enterprises have been affected by the epidemic and are facing periodic problems in natural flake graphite operated by foreign trade enterprises will also fluctuate with the changes of the epidemic. Contact us for the latest quotation on natural flake graphite.

Inquery us

Our Latest Answers

Global boron carbide powder market trend 2022-2029 What is Boron Carbide Used For? by Newsseriesnow

Boron carbide (B4C) is an extremely hard boron-carbon ceramic and covalent material used in tank armor, bulletproof vests, engine damage powder, and many industrial applications.…

Global molecular sieves market trend 2023-2029 What are Molecular Sieves Used For? by Newsseriesnow

Molecular sieves are materials with holes of uniform size (very small holes). These pores are similar in size to small molecules, so large molecules cannot enter or be adsorbed, while smaller molecules can.…