High quality and trust worthy chemical supplier | Orachemicals.in

Newsorachemicals

Tag: application

Blog

The properties and applications of Iron Oxide Fe3O4

/ / no Comments

What is Iron O2O4 ? Iron O3O4, a type inorganic substance, has the chemical formula Fe3O4, black with magnetic and is commonly known as magnetic iron dioxide. It cannot be considered Fe(FeO2)2, or as a mixture between iron oxide FeO2O3, although it can be roughly regarded as a compound from ferrous oxide, iron oxide (FeO*Fe2O3). The substance is not soluble in water, alkali solution or ethanol. Iron Oxide Fe3O4 from natural sources is insoluble when it comes into contact with acid solutions. However, the iron oxide (Fe2O3) can be easily oxidized to Iron Oxide Fe3O4 (Fe2O3) when exposed to air. It is often used in the production of audiotapes, telecommunications equipment, and as a polish.

How is Iron Oxide, Fe3O4, Produced?
Schikorr reactions produce iron oxide Fe3O4. This reaction turns iron (II), OH (Fe(OH),2) into iron oxide, II, III (Fe3O4). Anaerobic conditions cause ferrous hydroxide(Fe(OH),2) to oxidize in water and form magnetite, as well as molecular hydrogen. This process is described in Schikorr's reaction.
3Fe(OH)2-Fe3O4 + H2 + 2H2O
What is Fe2O3 and Fe3O4 different?
Fe2O3 vs Fe3O4 are two different minerals. Fe2O3 is paramagnetic and has only Fe2+ oxidation while Fe3O4 a ferromagnetic metal with both Fe2++ oxidation.
What are some properties of Iron Oxide Fe3O4?
Fe3O4 is ferrromagnetic and has a Curie Temperature of 858K. The Verwey transition is a phase transition that occurs at 120K. This transition is where there is a discontinuity between the structure, conductivity, and magnetic properties. While many explanations have been suggested, the effect has not been fully understood.
Although it has an electrical resistivity that is higher than iron (96.1% nO m), Fe3O4’s electrical resistance (0.3 mO.m) is much lower than Fe2O3’s (approx. 10 kO.m). This is due to electron exchange between FeII and FeIII centres in Fe3O4.
Iron Oxide, Fe3O4
Iron Oxide Fe3O4, also known as iron black, magnetite and black iron dioxide, can be used for many purposes.
Black pigments are also known as Mars Black, and Iron (II or III) oxide.
It is used in Haber processes as a catalyst.
It is used to produce the water-gas shifting reaction.
MRI scanning employs Fe3O4 Nanoparticles to contrast them.
It protects the steel against rusting.
It is an element in thermite and is used to cut steel.
It can also produce special coatings, high-grade magnetic separators and microwave absorption materials.

Read More
Blog

The Applications of Gallium Nitride Powder

/ / no Comments

Gallium Nitride powder Overview
Gallium Nitride Powder has strong atomic bonds, wide direct bands, good thermal conductivity, and other characteristics. It also has strong antiradiation capabilities under high temperature, high power devices, and high radiation.
Gallium Nickel GaN powder CAS 25617-97-4
What are the possible uses for Gallium Nitride Pulver?
1.GaN can also be used for large TV screens, or for smaller full-color panels on trains and buses.
2.Gallium-nitride is used for power semiconductors. This includes electric vehicles and photovoltaic generation.
3.Gallium trioxide is used in 5G radio frequency fields. It will gradually replace the use of silicon-based materials in this frequency field with gallium nutride.
4.GaN can be used to fast charge mobile phones.
5.GaN UV detectors are a new generation of detectors. Their wavelength is 369nm. There are many important applications.
6. The GaN material series is low in heat generation and has high breakdown electrical field. It is an important material to develop high-temperature, high-power electronic devices as well as high-frequency microwave devices.
The main supplier of Gallium Nitride Powder
Tech Co., Ltd. () is a professional nitride powder Over 12 years' experience in chemical products development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high-quality powdered boron carbide here Please contact us Send an inquiry

Read More
Blog

Properties and applications of graphene oxide

/ / no Comments

Grapheneoxid, a key derivative of graphene based materials, is an important one. Despite the fact that graphene oxide is oxidized, it preserves its highly conjugated structure and layers. The introduction of oxygen-containing groups not only makes the graphene oxide chemically stable, but also provides surface modification active sites and a larger specific surface area for the synthesis of graphene-based/graphene oxide-based materials. Graphene dioxide is an excellent precursor and support carrier in the synthesis and control of graphene-based materials. When compounding with metals and metal oxides, high-molecular polymers, or other materials, it can provide large surface areas to disperse and prevent agglomeration.
Grapheneoxid also exhibits excellent physical, chemical, and electrical properties. The graphene oxide's conductivity can be modulated by the number and type of oxygen-containing groups. There are many uses for this material. Grapheneoxid is a new carbon material. It exhibits excellent properties with high specific surface areas and numerous functional groups. The wide variety of applications for grapheneoxid composite materials (including polymer composites and inorganic compounds materials) has led to the development of a new research area: surface modification.

1 Optoelectronics
In 2016, Karteri et al. In 2016, Karteri and colleagues studied organic thin-film transistors with SiO2/GO insulating layers, as well as their photoresponse characteristics devices. The characteristics of the transistor were also improved by adding GO to the insulating layers.
2 solar cells
You will get the same photoelectric conversion efficiency as PEDOT:PSS if you use GO instead. Study of the effect of different thicknesses GO layers on polymer-solar cells has been done. The highest photoelectric conversion efficiency is achieved when the thickness of the GO layer is less than 2 nm.
3 Flexible Sensor
Because GO has many hydrophilic functional classes, it can be easily modified. A large specific area, excellent dispersion, and high humidity sensitivity make GO an ideal sensor material, especially for flexible sensors.
4 Biological considerations
GO is a unique combination of electronic, optical, and mechanical properties that has been used in many areas, including biotechnology, nanomedicine and tissue engineering, biomedical engineering and biomedical engineering. GO's specific surface area is larger than other planar or spherical nanomaterials. It can be modified easily and has good biocompatibility. GO and alkene derivatives will have corresponding biological effects due to their surface charges, sizes, lateral dimensions, and surface chemistry. Further research is needed to determine GO's biosafety. Material science will enable us to use low toxicity materials and better biocompatibility to modify GO. We can prepare GO with stable and clear properties, safe structure, non-toxic, and so be able to use it as a safe, effective, and efficient medical material.

Tech Co., Ltd. is a professional supplier for graphene oxide. We have over 12 years of experience in chemical products research, development, and manufacturing. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
Send an inquiry if you're looking for graphene oxide powder of high quality.

Read More
Blog

The Applications of Zirconium Silicide

/ / no Comments

What is it? Zirconium Silicide ? Zirconium Silicide is a zirconium/silicon intermetallic compounds. It is a ceramic material of high temperature with excellent hardness, melting point, electrical conductivity, thermal conductivity, as well as high thermal shock resistance. It is both a structural material and a new type engineering material that can be used with high-temperature, corrosive media.
The main features and benefits of Zirconium Silicide
Zirconium Silicide is a metallic gray orthorhombic, shiny crystal having a relative density of 4.8822. Zirconium Silicide is insoluble with water, mineral acids, and aqua regia. It is however, soluble in hydrofluoric Acid.
Zirconium Silicide Properties
Other Titles zirconium(IV) silicide, zirconium disilicide, ZrSi2 powder
No. 12039-90-6
Combination Formula ZrSi2
Molecular Weight 147.4
Appearance Gray Black Powder
Melting Point N/A
Boiling Point N/A
Density 4.88 g/cm3
Solubility of H2O N/A
Exact 145.858557
Zirconium Silicide Zi2 Powder CAS 12039-9
Zirconium Silicide applications
It is used as a fine ceramic raw material powder to produce crucibles that are used in the production of semiconductor thin film production.
Production of Zirconium Silicium
Method for creating zirconium silicide Nanomaterials. This involves: (1) adding 5mmol Zirconium dioxide, 5mmols of silicon powder, and 50mmols of metallic lithium to a 20 milliliter stainless steel Autoclave. Next, seal the autoclave with sealing. Finally, place the autoclave into an Electric Furnace that heats up. After the temperature rises to 600°C, the reaction continues for 40 hours before it is naturally cooled down to room temperature.
(2) The reaction product was first washed in distilled water. Next, it was washed twice with dilute HCl and dehydrated Ethan. Finally, the filtrate was filtered. To obtain zirconium Silicide nanometers, the vacuum drying box was set at 60°C for 4 hours.
The principal supplier of Zirconium Silicide
Tech Co., Ltd. () is a professional silicide solution Over 12 years' experience in chemical product development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high-quality powdered boron carbide here Please contact us Send an inquiry

Read More
Blog

Introduction of The Zinc Sulfide Powder Applications

/ / no Comments

Zinc sulfide This inorganic compound has a chemical composition of ZnS. It's a white powder or slightly yellowish-colored powder that turns darker when exposed to sunlight. Zinc sulfuride is stable in dry conditions, but slowly oxidizes to zinc oxide if left in humid environments for too long or contains moisture.

Zinc Sulfide Powder Application

Zinc sulfide's excellent properties make it a popular choice in many areas.
1. Chemical
Zinc sulfuride is used mainly in paints, plastics, and chemical production. Zinc sulfide is an important pigment in paints because of its white opaqueness and insolubility to water, organic solvents as well as weak acids and bases. Zinc sulfide pigments, due to their high refractive and wear resistance, have a high hiding power when coated on equipment, wax papers, or metal plates.

Zinc sulfuride is easy and simple to disperse. It is commonly used as a component in thermosetting plastics and thermoplastics, reinforced glass, flame retardants, artificial resin, dispersants, and thermosetting plastics.
2. Ceramics
Ceramics use zinc sulfide because of its good sintering characteristics. Research has shown that the monodisperse zinc sulfide particles have a better sintering result than the agglomerated. The particle size also increases.

3. Photoelectric
Zinc sulfuride is a broad-bandgap semiconductor and potential photonic material. You can achieve visible emission in different wavelength bands by introducing different dopants to the nano-zinc.sulfide matrix. Zinc sulfide has many uses, including numbers, characters and symbols. It is also used in computer terminals and radar displays.

4. Photocatalysis
Because nano-zinc sulfuride is a type of photonic material it can generate photonic hole. Quantum size effect increases the redox potential, which makes it an excellent photocatalytic silicon.

5. Performance of infrared
Zinc sulfuride is an infrared optic material that has high infrared transmittance, excellent optical, mechanical, and thermal comprehensive properties. It is the ideal dual-band, infrared observation window or hood material to use for aircraft. This property is used to make a special absorbing substance doped in pigments. It requires single particles with larger sizes, which can be modified using a metal nanolayer on the surface zinc sulfide.

Tech Co., Ltd. () is a professional sulfide powder Over 12 years of chemical product development and research experience. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.

You can find high quality zinc sulfuride powder here. Get in touch Send an inquiry

Read More
Blog

What are the Application of Alumina Industrial Ceramics

/ / no Comments

Alumina ceramics' main properties

Alumina ceramics, a ceramic material containing alumina (Al2O3) is used for thick-film integrated circuits. Alumina ceramics exhibit high conductivity, mechanical strength, resistance to high temperatures and good conductivity. It is important to note that ultrasonic cleaning may be required. Alumina ceramics can be used in many different ways. Alumina ceramics are becoming more popular in modern society because of their superior performance.

Alumina industrial ceramics offer excellent insulation, wear resistance and high temperature resistance. They are popularly used in many industries, including electronics, chemical, refractory, as well as machinery and electronics. What are some of the uses of alumina, then?

The main applications of alumina in industrial ceramics

1. The main components in ruby and sapphire's are alumina industrial clays. These will display different colors due to other impurities. Ruby has chromium dioxide, and is red. Sapphire contains iron oxide (and is also blue), and sapphire has titanium oxide (and is also blue).


2. The content of alumina industrial clays, which is the major component of bauxite of biauxite is the highest, is the highest.


3. Aluminum is resistant to corrosion in the atmosphere because it is made from industrial ceramics. Pure aluminum is extremely easy for oxygen to react with, creating a thin aluminum oxide industrial clay film to cover any aluminum surface that is exposed to the air.


This layer of alumina ceramic film can help prevent further aluminum oxidation. Anodizing is a process that increases the thickness of oxide films.


4. Aluminum is a good conductor and heat conductor. Because of its high hardness and adaptability, carborundum is the crystal form. It is ideal for cutting tools and abrasive materials.


Tech Co., Ltd. is a professional supplier of Alumina powder. We have over 12 years of experience in chemical products development and research. We accept payments via Credit Card and Paypal. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.


Send us an inquiry if you are interested in high quality Al2O3 Powder.

Read More
Blog

The Applications of Spherical Quartz Powder

/ / no Comments

How do you define it? Spherical Quartz Powder ? The sphere of quartz is made out of quartz crystal after it has been purified and fine ground. During a high-temperature field its phase, crystal forms and form change instantly from solid to liquid state. Amorphous powder is made of irregularly formed angular particles that are transformed into regular spherical ones.
Here are some of the key features Spherical Quartz Powder
Smooth surface, large area and high stability of chemical properties are some of the benefits that spherical Quartz powder offers. Spherical quartz powder exhibits good fluidity and is mixed well with the resin in order to form a thin film. A higher amount of quartz powder is better for electronic components. It will also have a lower thermal conductivity. Also, the mold compound has a smaller thermal expansion factor. The stress of spherical granules is 60% less than that of angular powder. Furthermore, the molding compound made with spherical crystal silicon has the lowest stress concentration and highest strength. Furthermore, the surface texture of spherical quartz powder is extremely smooth. The friction coefficient and wear to the mold are very low, which may extend its service life by up to one-third.
Spherical Quartz Powder Spherical SiO2 Property
Other Titles Fused quartz, spherial quartz, spherical SiO2, silica
7631-86-9
Compound Formula SiO2
Molecular Weight 60.09
Appearance Powder White
Melting Point 1,600deg C (2,912deg F)
Solubility In Water N/A
Density 2533 kg/m3
Purity 99.5-99.9%
Particle Size 10-30nm
Boling Point 2,230deg C (4,046deg F)
Specific Heat N/A
Thermo Conductivity N/A
Thermal Expansion N/A
Young's Module N/A
Exact Value 59.9668 g/mol
Monoisotopic 59.967 D
Spherical Quartz Powder Spherical SiO2
Spherical Quartz powder's uses
There are many uses for spherical powdered quartz, with electronic packaging being the most popular. Electronic packaging is an industry that supports integrated circuits. As integrated circuits become increasingly sophisticated, the demands for packaging materials increase. Packaging forms are continually optimized and improved to meet these requirements. Three main types of electronic packaging include substrate, plastic, glue, and frame. The advantages of plastic packaging include its ease-of-use, low cost and ability to be made in mass quantities. Presently, plastic packaging is responsible for 95% global market share in integrated circuits. %above. EMC is the main plastic encapsulant. It houses more than 95% microelectronic component.
1. Microelectronic packaging must be able to withstand high humidity, low stress, low pressure, low alpha-rays, dip and reflow welding resistance, as well as good sealing properties. To address this issue, epoxy molding compounds must contain inorganic fillers. Nearly all inorganic materials used today are quartz micropowder (silica micropowder). Large-scale, ultra-large-scale microelectronics circuits now have more stringent requirements for packaging material. EMC powder, which is critical for supporting EMC technology, requires quartz powder to be of the required particle size. Quartz powder also needs its purity.
2. It is a sphere of silicon micropowder that has a good form and can be used to meet the technical needs of high-end integrated systems. This can reduce the temperature expansion coefficient, dielectric constant, and stress of sealing materials. The products also have excellent weather resistance, impact resistance and compression resistance. The main use of spherical Quartz powder in electronic packaging is also to manufacture optical inks, optical fibres, high quality cosmetics, precise grinding of electronic devices, components and fillers for paint coatings.
The principal supplier Spherical Quartz Powder
Luoyang Tech Co., Ltd. is a company that specializes in professional IT services. oxide powder Over 12 years' experience in developing and researching chemical products. You can pay by Credit Card, T/T or West Union. We will send the items to overseas customers via FedEx or DHL.
You can find high-quality, high-quality boron carbonide powder here Please contact us You can also send us an enquiry


Read More
Blog

The Applications of Molybdenum Carbide

/ / no Comments

What is it? Molybdenum Cartbide ? Molybdenum carbide is a transitional carbide. It is one of a number of interstitial compound families with metallic properties that are formed by carbon entering into the crystallization of transition metals.
Molybdenum Carbide's main characteristics
Molybdenum Carbide (Molybdenum Carbide), is a gray hexagonal crystalline. It has high melting points and hardness, excellent thermal and mechanical stability, and good corrosion resistance. 2692degC is the melting point. It is insoluble when mixed with water and lye. It can be slightly soluble in hydrofluoric, sulfuric, and nitric acid.
These are the main catalytic reactions that molybdenum caride uses:
1. Hydrogenation hydrogenolysis reactions
2. Hydrodesulfurization HDS or hydrodenitrogenation HDN;
3. Reaction to isomerization
4. Hydrocarbon conversion, synthesis reaction
5. Application in ammonia synthesis.
Molybdenum Carbide Properties
Other Titles Mo2C powder, dimolybdenum caride, dimolybdenum carbide
No. 12069-89-5
Combination Formula Mo2C
Molecular Weight 203.89
Appearance Gray Powder
Melting Point 2690
Boiling Point N/A
Density 9.18 g/cm3
Solubility of H2O N/A
Exact N/A
Molybdenum Care Mo2C Powder, CAS 12069-89-5
What are the possible uses of Molybdenum carbide
The global consumption structure shows that molybdenum can be considered an ally of iron. Molybdenum is consumed in 80% of Western developed countries. Steel absorbs 30%, 30% and 30% respectively. Drilling tools and cutting instruments account for 10% and 10%, respectively. The remaining 20% of molybdenum is consumed in molybdenum chemical, molybdenum-based lubricants, and petroleum refining. In the United States, 75% of the molybdenum used in steel production was quite common in 1998.
Additionally, molybdenum based alloys are becoming more common in electronics, metal processing, aerospace, and other industries.
1. Molybdenum-alloy
The most popular molybdenum alloy, TZM alloy is known for its high strength and extensive properties. The United States uses TZM alloy to make the turbine disc of its engine. It accounts for 15% in total molybdenum. There are 22 grades of molybdenum, including TZM alloys. My country had a nearly 200-ton production of molybdenum materials and molybdenum products by the early 1990s.
The superior mechanical properties of TZM molybdenum alloys and TZC are far better than pure molybdenum. They are widely used in high-tech, mold, and other structural parts manufacturing. Since the 20th Century, we have successfully used them to make seamless steel pipes' hot perforated heads. The powder metallurgy process uses sintered molybdenum as a plug to reduce consumption (50% in the as-cast state), and it increases the average service time by 1.5-2 times.
This seamless tube, made from molybdenum/rhenium alloy (containing 50% Re), is extremely durable and can be used at temperatures close enough to its melting temperature.
The advantages of molybdenum, molybdenum, and molybdenum-alcohol alloys include high strength, excellent electrical and thermal conductivity, low thermal expansion coefficient, and similarity to glass used in electronic tube (grids & anodes), as well as being more easy to process than tungsten. So, plates, strips and foils are used in electronic tubes, electric light sources (supporting material), parts, and metal processing tools (diecasting and extrusion dens, forging s, forging, liquid metal screens, turbine disks) and turbine disks These components are widely used.
2. Alloying steel elements
Molybdenum is an allies to steel. It can reduce embrittlement during heat treatment in alloy steels. American has found a solution to the shortage of tungsten by using molybdenum as a substitute for tungsten in its high-speed stainless steel. According to research, molybdenum can have twice the power of tungsten. A steel that contains 18% tungsten could be replaced with steel that contains 9% molybdenum by adding chromium, vanadium and chromium simultaneously. This drastically reduces the steel production cost. Molybdenum plays an important role in stainless steel's corrosion resistance, high strength, and weldability. You can see that molybdenum has a significant role in the iron- and steel industry.
Molybdenum Carbide's main supplier
Tech Co., Ltd. () is a professional carbide powder Over 12 years' experience in chemical products development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
You can find high-quality powdered boron carbide here Please contact us Send an inquiry








Read More
Blog

Researches and application prospects of nano silicon powder

/ / no Comments

What is Nano silicon? Nano silicon The smallest diameter of crystal silicon particles is 5 nanometers. Nano silicon powder is high in purity and has small particles. It also has uniform distribution. This product is tasteless and non-toxic thanks to its high surface area, high activity and low bulk density. Nano silicon powder, a new generation optoelectronic materials with high gap energy semiconductors, is also a high power light source material.
Nano silicon research is undergoing new developments
(1) Change the amount of silicon-rich and annealing conditions to control the size or density of silicon nanocrystals. The critical temperature required for the formation of silicon nanocrystals has been suggested by the literature as being 1000oC. We have proved this through experiments. After annealing at 900oC, the high-resolution electron photo of silicon-rich silicone oxide has a silicon content of around 30%. It is obvious that silicon nanocrystals exist.
(2) First time observation of the electroluminescence in Au/(Ge/SiO2) superlattice/p–Si structures. High-resolution electron micrograph showing a four-period Ge/SiO2 supra lattice. The bright-line shows SiO2 having a thickness of 2.0nm. The Ge layer has a thickness at 2.4nm.
(3) The nanoSiO2/Si/SiO2 single-potential high-potential sandwich structure was created on a silicon substrate. It was produced using magnetron-sputtering technology. This allowed for visible electroluminescence. The changes in the thickness (W), which affects the Nano-silicon layer, cause the peak position and intensity for electroluminescence to oscillate synchroeously. Further research and analysis have proven that the oscillation time is 1/2 of the de Broglie wavelength. This is explained by the electroluminescence theory proposed by our group.

(4) Er electroluminescence (with a wavelength 1.54mm) was first realized using the SiO2 :Si Er film grown by magnetron-sputtering.
(5) First time, a UV-violet luminescence of 360nm at a low threshold voltage was achieved in heat-treated natural silicon oxide/pSi. It is the longest wavelength known to be produced by silicon-based ultravioletescence.
The applications prospects for Nano silicon
We have developed more than 10 types of silicon/siliconoxide nanostructures and realized the photoluminescence within the main wavelength bands (including 1.54mm to the near infrared) and the photoluminescence with the Forward or Retro bias Low threshold Voltage Electroluminescence. Furthermore, we proposed widely supported photoluminescence as well as electroluminescence models that provide the foundation for silicon-based optoelectronic Integration. It has significant scientific significance and great application potential.
(aka. Technology Co. Ltd. (aka. Our Nano silicon is high in purity, fine particle size, and impurity. Please Please contact us if necessary.

Read More
Blog

The application of high purity graphite powder has excellent performance in industrial production

/ / no Comments

High purity graphite powder - Overview High purity graphite powder is the most stable form of carbon, in the isolation of oxygen conditions, its melting point above 3000 is one of the most temperature-resistant minerals. Graphite powder can be described as a form of mineral powder. It is mainly made of carbon, hard, black grey, and Greasy. The hardness is approximately 1 2. However, the vertical direction of the increase in impurities can make the hardness rise to 3 5. Specific gravity is 1.92.3. The chemical properties graphite powder have a relatively stable temperature and are insoluble in water, dilute acid and organic solvents.
High purity graphite dust refers to graphite with more than 99.9%. The graphite contains a lot of carbon. A high purity graphite product has high electrical conductivity and lubricity. It is also resistant to high temperatures, wear, and other factors. Primarily used for determining how carbon compounds are formed by thermal benchmarks. High purity graphite is used primarily in electronics, electronics and metallurgy. High purity graphite contains a high carbon content of 99.99%. High purity graphite can be further divided into nuclear graphite; coarse crystalline, space graphite; fine crystalline and fine crystalline. Maximum grain diameter is less than 0.75mm.
High purity graphite powder features
High purity graphite pulverize is made from high purity graphite process cutting out, graphite particle granularity range according to the processing way, graphite specifications and USES, are associated, in graphite pulverize specifications and graphite sphericality specifications. This is to ensure the production cost is low, that graphite can be controlled well, that graphite's mesh is large, and that graphite can be used widely.
What are the uses of high purity graphite?
High purity graphite powder can be used in industrial production. High purity graphite powder can be used for electric conduction, lubrication and other industrial production areas. The production of high-purity graphite powder requires strict control of the impurity content. It is important to select raw materials with low ash levels and to avoid the creation of more pollutants. However, it is the graphite's chemical order that can make the most of the contaminants. Graphitization happens at high temperatures when many of the oxides and impurity elements are destroyed. The graphitization temperature is higher, and the more impurities are released, the higher quality of high purity graphite products. High purity graphite is known for its outstanding electrical conductivity and lubricity.
High purity micron-graphite particles can be used in a wide variety of industries, including photographic film, high-performance battery iron, nickel foam manufacturing, and advanced lubricating oils and grease manufacturing.
Special graphite coverings: water-based graphite and conductive graphite sandings, dissolved graphite sandings, internal graphite and external graphite sandings, drawing graphite and lubricating and TV graphite sandings, glass fiber and special coatings.
Supplier of high-purity graphite powder
(aka. Technology Co. Ltd. (aka. Our company has developed a number of materials. Our high purity graphite powder is of very high purity and has a small particle size. Send us an email, or click on one of the products to send an inquiry.

Read More

Resent Products