The difference in processing technology and raw materials will determine the final product.
graphite powder
Natural graphite is separated from artificial graphite. Graphite is an ideal anode for lithium-ion batteries because of its low lithium cost and high efficiency.
Natural graphite exhibits many defects on the surface, high specific area, and low efficiency at first.
PC-based electrolytes can cause serious problems such as solvated lithium Ion co-embedding. This leads to graphite peeling and expansion, and ultimately, battery failure.
The anisotropy of natural graphite means that lithium ion is difficult to embed from the end faces. It also makes it easy for lithium ions to be precipitated. Artificial graphite can be made from dense petroleum coke (or needle coke) as precursors. Although this avoids some of the defects found in natural graphite’s surface, it still has problems such as poor magnification and low temperatures performance. It is also easy to separate lithium.
To improve magnification of natural graphite, the first step is to modify the pore structure. After etching with strong alkali (KOH), the solution in an aqueous solution has been applied to the graphite.
You can also use strong oxidant solution to passivate surface active potential. This will increase natural graphite’s efficiency.
Third, fluorinate natural graphite by using ClF3. Effectively, the cycle life and charge/discharge ratio are improved.
The amorphous graphite can also be coated to form “coreshell” structures. The carbon source for amorphous Carbon is typically pitch, phenolic or other low temperature pyrolytic material. Because of the long distance between the layers of carbon, the presence of a layer of carbon can reduce interfacial impedance and isolate electrolyte from the particles. Enhance the intercalation or diffusion of lithiumion.
To solve the anisotropy problem in natural graphite, mechanical treatments are often employed to shape the particle morphology. An air flow shaping device uses wind to create particles that rub against each others and to cut corners. The method doesn’t introduce any doping impurities. It has high efficiency and will result in the pulverization a large amount of particles with low yield.
Mechanical fusion machines use the material to spin at high speed inside the rotor. The material clings on to the wall using centrifugal force and then passes between the stator extrusionhead and the rotor at high velocity. This is when the material will be subject to extrusion force and shear pressure. To achieve the goal of spheroidization, the surface is subject to the friction between particles and other particles.
Natural graphite’s particle sizes are reduced to 15-20 mm after the spheroidization process. The first efficiency and performance of the cycles is clearly improved. Magnification performances can also be greatly enhanced.
You can email us to request a quotation if you want the current graphite price. (brad@ihpa.net)
You can find high-quality, natural flake graphite powder here. Get in touch You can also send us an inquiry. (brad@ihpa.net)
Analyse of natural graphite
Natural graphite generally uses natural flake and modified natural graphite to produce spherical, crystalline graphite. Natural graphite has many disadvantages, even though it is widely used.Natural graphite exhibits many defects on the surface, high specific area, and low efficiency at first.
PC-based electrolytes can cause serious problems such as solvated lithium Ion co-embedding. This leads to graphite peeling and expansion, and ultimately, battery failure.
The anisotropy of natural graphite means that lithium ion is difficult to embed from the end faces. It also makes it easy for lithium ions to be precipitated. Artificial graphite can be made from dense petroleum coke (or needle coke) as precursors. Although this avoids some of the defects found in natural graphite’s surface, it still has problems such as poor magnification and low temperatures performance. It is also easy to separate lithium.
Modifications to natural graphite
Different surfactants were applied to the graphite to fix its surface imperfections and toler electrolyte well.To improve magnification of natural graphite, the first step is to modify the pore structure. After etching with strong alkali (KOH), the solution in an aqueous solution has been applied to the graphite.
You can also use strong oxidant solution to passivate surface active potential. This will increase natural graphite’s efficiency.
Third, fluorinate natural graphite by using ClF3. Effectively, the cycle life and charge/discharge ratio are improved.
The amorphous graphite can also be coated to form “coreshell” structures. The carbon source for amorphous Carbon is typically pitch, phenolic or other low temperature pyrolytic material. Because of the long distance between the layers of carbon, the presence of a layer of carbon can reduce interfacial impedance and isolate electrolyte from the particles. Enhance the intercalation or diffusion of lithiumion.
To solve the anisotropy problem in natural graphite, mechanical treatments are often employed to shape the particle morphology. An air flow shaping device uses wind to create particles that rub against each others and to cut corners. The method doesn’t introduce any doping impurities. It has high efficiency and will result in the pulverization a large amount of particles with low yield.
Mechanical fusion machines use the material to spin at high speed inside the rotor. The material clings on to the wall using centrifugal force and then passes between the stator extrusionhead and the rotor at high velocity. This is when the material will be subject to extrusion force and shear pressure. To achieve the goal of spheroidization, the surface is subject to the friction between particles and other particles.
Natural graphite’s particle sizes are reduced to 15-20 mm after the spheroidization process. The first efficiency and performance of the cycles is clearly improved. Magnification performances can also be greatly enhanced.
Modifications to Artificial Graphite
Modifications of artificial graphite. The modification process of artificial graphite has a different structure than that of natural graphite. Reorganizing the particle structure of graphite can reduce the OI value (position degree) of graphite grains. A needle coke precursor of 8-10mm in diameter is chosen. The carbon source for the binder is typically made from easily graphitized materials like asphalt. A number of needle coke particles can be bonded using drum furnace treatment. The secondary particles, with a size of 14-18mm, are used for graphitization. This will reduce the Oi values of the material.Graphite Powder Pricing
Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity and market sentiment are also important.You can email us to request a quotation if you want the current graphite price. (brad@ihpa.net)
Graphite Pulver Supplier
Technology Co. Ltd. has over 12 years of experience as a reliable natural graphite supplier and manufacturer. All of our products can be shipped worldwide.You can find high-quality, natural flake graphite powder here. Get in touch You can also send us an inquiry. (brad@ihpa.net)