Dispersant MF Naphthalenesulfonic Acid CAS 9084-06-4 |

No foaming, no permeability, and easily soluble in hard water. It is resistant to acids, alkalis, hard water, and inorganic sulfates. Dispersion >=90%

Dispersant Naphthalenesulfonic Acid (MF Naphthalenesulfonic Acid):
The dispersant MF Naphthalenesulfonic Acid features a rich and fine foam with low degreasing powers, low irritation of skin and hair as well as good biodegradability.
It is a global trusted brand Dispersant MF Naphthalenesulfonic Acid . Send an inquiry for the latest. Prices of Dispersant MF Naphthalenesulfonic Acid If you want to buy Dispersant MF Naphthalenesulfonic in bulk.

Product Performance of Dispersant, MF Naphthalenesulfonic:
Its mild decontamination ability makes skin more comfortable after washing.

Technical Parameters of Dispersant MF naphthalenesulfonic acids:
Product Code Shortname Dispersion PH Odor Appearance
Dispersant MF Naphthalenesulfonic Acid NA >=90% 7-9 A slight characteristic smell Brown or beige powder

Applications Dispersant MF Naphthalenesulfonic: Dispersant Naphthalenesulfonic Acid MF is used primarily as a dispersant, filler and dye for vat dyes. Its advantages include a good dispersibility and heat resistance. It is more stable and resistant to high temperatures than dispersant. It can also combine with dispersants for various vat dyes or dispersed dyes. It can also act as a water-reducing agent in early-strength concrete. It is also used to disperse dyes for vat grinding and dye suspension dyeing. Also used in rubber and tanning industries as a stabiliser for latex.

Packing & Shipping of Dispersant MF naphthalenesulfonic acids:
Dispersant MF naphthalenesulfonic acids is available in a variety of different packaging options.
Packing MF Naphthalenesulfonic Dispersant 1kg/bottle. 25kg/barrel. 200kg/barrel.
Dispersant MF Naphthalenesulfonic Acid shipping As soon as payment is received, you can ship your order by air, sea or express.

Properties of MF Naphthalenesulfonic Dispersant

Alternative Names N/A
CAS Number 9084-06-4
Compound Formula C23H18S2O6Na
Molecular Mass N/A
Appearance NA
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Mass N/A

Health & Safety Information for Dispersant MF naphthalenesulfonic Acid

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information
N/A

No foaming, no permeability, and easily soluble in hard water. It is resistant to acids, alkalis, hard water, and inorganic sulfates. Dispersion >=90% Dispersant Naphthalenesulfonic Acid (MF Naphthalenesulfonic Acid): The dispersant MF Naphthalenesulfonic Acid features a rich and fine foam with low degreasing powers, low irritation of skin and hair… Continue reading

What are lithium battery anode materials

Anode materials for lithium batteries Materials that store and release Lithium ions are an essential part of the lithium battery. The anode material is responsible for the acceptance of lithium ions by the positive electrode in the lithium battery construction. It also releases lithium ions into the positive electrode when the battery is discharged. The anode material chosen directly impacts the cost, performance and safety of a lithium battery.

The characteristics of anode material for lithium battery:

Reversible capability: Reversible capacities refers the amount of lithium that the battery is able to store and release when charging and discharging. The higher the capacity of a battery’s reversible, the higher its energy density, and the greater amount of energy that can be stored and released.

The diffusion coefficient of lithium ion is a measure of the difficulty with which lithium ions diffuse through anode materials. The higher the diffusion coefficient the easier it is to move lithium ions and the better electrochemical performance the battery.

Electrochemical stability: The ability of anode materials to stabilize their structure and reactivity while the battery is charging or discharging. When the electrochemical performance of the anode is poor, battery life will be shortened and safety concerns may arise.

Cost: Considering the commercial application, the price of anode materials is also an important factor to be considered.Currently, lithium battery anode materials on the market mainly include graphite-based materials,

Lithium titanate and tin-based material are both good options. One of them is graphite-based material, which has high reversible capacities and good stability electrochemically, but costs a lot. Although lithium titanate has good electrochemical stability, it is expensive. Its reversible ability is also low. Tin-based material has a high capacity for reversible use and is low in cost. However, their electrochemical stabilty is poor. Anode material is suitable for different battery systems.

Research and development in battery materials is important because of their important role in lithium batteries. With the continued progress of technology, and the growing application demand, research and development for new anode material will become more active in the future. New negative electrodes are mainly made of transition metal nitride or carbide, as well as alloy-like material, carbon nanotubes or two-dimensional materials. These new materials will lead to the development of future lithium batteries anodes due to their higher reversible capacitance, improved electrochemical stability, and lower cost.

Use of lithium anode materials

Applications of anode material are wide-ranging, and include a number of fields that need portable power sources. These include electronic products, vehicles with electric motors, power storage devices, etc. Following are some examples.

Electronic products, such as mobile phones, tablet PCs and laptops. Power is provided by lithium batteries. In these areas, anode material choice directly affects energy density and charging speed as well as the life, safety, and longevity of the batteries.

Electric Vehicles – Electric vehicles use a high amount of energy to power the vehicle. Therefore, they must have high-capacity batteries. The anode material chosen is crucial to the safety and performance of electric vehicles.

Electricity Storage Systems. These include home energy systems, wind power storage systems and more. These systems are required to produce a large amount power during periods of peak demand, which is why they need large-capacity batteries with high energy-density. The anode material used directly impacts the performance and price of these systems.

What are the different types of anodes used in lithium batteries?

A new type of lithium batteries, silicon-carbon batteries have anodes that are mostly silicon based. Silicon-based material has a high reversible capacitance, high electrochemical stabilty and low cost. They have many applications in the field of batteries. There are three main types of silicon materials used as anodes in silicon-carbon battery:

Silicon-carbon materials: Silicon-carbon materials are composite materials combining silicon and carbon materials. This material offers high reversible capacitance, high electrochemical stabilities and long lives, and can be better matched to the anode for improved battery performance. Silicon content in silicon carbon composites is adjustable to meet the needs of different applications.

Silicon oxide material. Silicon oxide is an excellent negative electrode with high reversible capacities, long cycle lives, and good safety performances. This material has a low efficiency of the first charge/discharge. To improve this, it is necessary to use pre-lithiation techniques and other technologies.

Silicon nitride Material: Silicon nitride, a new material for negative electrodes that combines both the advantages of silicon and nitride, is a material which combines silicon-based material with nitride. This material combines the benefits of high reversible capacitance, high electrochemical stability, and good electrical conductivity.

Here are some examples of new materials for battery anodes:

Carbon nanotubes. These nanotubes have many advantages, including high electrical conductivity and chemical stability. Carbon nanotubes have a wide range of applications, including as anode material in lithium-ion cells with high reversible capacitance, stable charging/discharging, and a long service life.

Graphene : Graphene can be used as anode material in lithium-ion batteries with high reversible capacity, stable charge/discharge and long life. Graphene has good applications as anode materials in lithium-ion cells with high reversible capacities, stable charging/discharging, and long lives.

Alloy materials. Alloys are a type of new anode materials with high reversible capacitance, stable charging/discharging and a long lifespan. The disadvantage of alloys is their high cost and difficult preparation.

Metal oxide material: metal oxide is a new type anode material. It has many advantages, including high reversible capacitance, stability of charge/discharge over time, long life span, and good performance in terms of multiplicity. Metal oxide materials’ disadvantages are their higher preparation costs and lower conductivity.

The following materials can be used as anodes for batteries:

Tin-based Materials: Tin-based materials have high reversible capacitance, good electrochemical stabilty and are low-cost. Tin-based material disadvantages include a short cycle life and the easy formation of dendrites. These factors reduce battery safety.

Oxygenate materials: Oxygenate materials are a new type anode with advantages such as high reversible capacities, stable charging and discharge, long-life and low costs. The oxygenate material’s disadvantage is its poor kinetic performance for electrochemical reactions. This needs to improve.

Transition metal-nitride materials: This new material for negative electrodes has the following advantages: high reversible capacities, stable charging, discharging and long life. It also performs better in electrochemical reactions. The preparation costs of transition metal material nitride are high and need to be further reduced.

Alloy materials are also used widely in the field negative electrode materials. These include Si-C Composites, SnC Composites and more. These materials offer a higher reversible capacitance and better charge/discharge stabilities, but their cost is high and they need to be further reduced.

The research, development, and application of battery anode material is important for improving the performance of batteries, reducing their cost, and ensuring their safety. New battery anode material application will become more diverse with the continued progress of science, technology, and application demand.

Lithium Battery Electrode Material SupplierHigh-purity ultrafine powders are available from us. __S.66__ Such as graphite or graphene. Click on the desired product or email us to send your inquiry.

Anode materials for lithium batteries Materials that store and release Lithium ions are an essential part of the lithium battery. The anode material is responsible for the acceptance of lithium ions by the positive electrode in the lithium battery construction. It also releases lithium ions into the positive electrode when… Continue reading

High Purity Niobium Nitride NbN Powder CAS 24621-21-4, 99% |

It is also a good superconducting thin-film material. Niobium nitride possesses high thermal and chemical stabilities. It is made by sputtering with a mixture of argon, nitrogen and helium. Purity: 99%
Particle Size : 5um

The following is a list of the most recent articles about Niobium Nitride NbN Powder :
Niobium nitride Compound of niobium with nitrogen (nitrides). Niobium-nitride chemical formulation It is a good idea to use a bilingual translator NbN . NbN superconducts at low temperatures (about 16.K) for infrared detectors.
Niobium is the first V metal nitride. Its high melting point, excellent mechanical, thermal and chemical properties, excellent superconducting, wear-resistant coating, building energy saving, refractory Plasma Effect and Supercapacitor are widely used. Additionally, NbN Niobium nitride This material exhibited a surface plasma resonant (SPR) which indicated an enhanced electromagnetic field at the surface. This material may be able to perform surface-enhanced Raman (SERS) through the electromagnetic enhancement effect.

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Niobium Nitride powder Product Performance
Niobium Nitride crystal structure is sodium chloride powder. The critical temperature for superconductivity is 17.3K. The upper critical magnet field is 43T. Critical current density Jc (2K, 20T), is 2x106A/cm2. Niobium-nitride thin films are excellent superconductors with excellent thermal and chemical stability.

Technical Parameters of Niobium Nitride powder NbN
Product Name MF Purity Particle Size Molecular weight Density Color
niobium nitride NbN 99% 5um 106.9131 8.4 g/ml Black

Chemical Composition of Niobium Nitride NbN powder:
NbN N Nb Si O C Fe
99% 9.7% 90.0% 0.01% 0.08% 0.02% 0.08%

How is Niobium Nitride NbN Powder Produced?
A production method for a niobium nitride powder includes the following steps:
1) Metal niobium powder and magnesium powder evenly mixed, and into the vacuum reaction container and after pumping air into vacuum state, for the first period of heating, heating up to the set temperature, filling the argon gas, and heat preservation, then pumping argon gas, filling the high purity nitrogen gas, heating up to the second paragraph, after heating to the reaction temperature, reaction, after the completion of the reaction, cool to room temperature, the reaction products;
2) Crush the reaction product obtained in Step 1 and pickling it after sieving. After pickling, rinse it with water until the solution is neutral, and then dry it to get Nb nitride powder.

Applications of Niobium Nitride NbN Powder :
Niobium nitride is an excellent superconducting thin-film material, used to make highly stable superconducting quantum instrument devices.
The main use of niobium nitride is as a superconductor.
Detectors based on it can detect individual photons ranging from 1 to 10 microns in the infrared spectrum, which has important implications for astronomy and telecommunications. It can detect changes of 25 gigahertz.
Superconducting NBN nanowires can be used in strong magnetic field particle detectors
Niobium nitride is also used to absorb anti-reflection coatings.
Photocatalyst based on niobium nitride, which absorbs 57 percent of sunlight, supports the decomposition of water to produce hydrogen as a fuel for electrochemical fuel cells.
Packing & Shipping of Niobium Nitride NbN powder :
We have many different kinds of packing which depend on the niobium nitride NbN powder quantity.
Niobium nitride NbN powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Niobium nitride NbN powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.


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Niobium Nitride Properties

Other Names Columbium nitride, Niobium mononitride, Nitridoniobium
CAS No. 24621-21-4
Compound Formula NbN
Molecular Weight 106.9131
Appearance Black Powder
Melting Point N/A
Boiling Point N/A
Density 8.4 g/cm3
Solubility in H2O N/A
Exact Mass 106.913

Niobium Nitride Health & Safety Information

Signal Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Statements N/A
Transport Information N/A

It is also a good superconducting thin-film material. Niobium nitride possesses high thermal and chemical stabilities. It is made by sputtering with a mixture of argon, nitrogen and helium. Purity: 99% Particle Size : 5um The following is a list of the most recent articles about Niobium Nitride NbN Powder… Continue reading

High Purity Titanium Diboride TiB2 Powder CAS 12045-63-5, 99% |

Titanium diboride, or TiB2, is the most stable of all the compounds containing boron and titan. It is a C32-type structure that is bonded by its valence. It is a compound of hexagonal metalloid. Purity:>99%
Particle size: 5- 10um

Titanium Diboride TiB2 powder
Titanium diboride, or Titanium boridepowder has a hexagonal crystal structure. It is grayish-black. Titanium Diboride Melting Point is 2980degC. It is stable with HCl, HF and anti-oxidation temperatures of 1000. Titanium Diboride is mostly used in the production of composite ceramics. Due to its resistance to corrosion in molten metallic crucibles or electrolytic cell electrodes, titanium diboride can be used.
TiB2 titanium diboride is a ceramic that has excellent oxidation resistance and wear resistance. Titanium Diboride (TiB2), an extremely hard ceramic, is used for special ballistic applications. Like most ceramics, it’s also conductive. As it is a good electrical conductor, it can be used in the aluminum melting process as conduit material and can also form by electrical discharge machine.
Titanium Diboride (TiB2), a ceramic material, is known for its high hardness and strength. Its melting point, density, strength to weight ratio, and wear resistance, are also high. The material’s current use is likely only for anti-evolving applications. One of the most important is the use TiB2 waveguides to electrochemically reduce alumina metal into aluminum. Electrical discharge machining can be used to develop other applications. Perfected. Economic factors, such as the cost to densify high melting point materials or the reduced material performance changes may restrict the use of this product.

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TiB2 Titanium Diboride:
Titanium dioxide powder can be gray or gray-black, and it has an hexagonal (AlB2) crystalline structure. It has a high hardness and a melting temperature of 2980degC. Its anti-oxidation in air temperature can reach 1,000 degrees Celsius, and its stability in HCl acid and HF is also high. Titanium Diboride is used primarily to prepare composite ceramics. Due to its ability to resist corrosion, it is used for the production of electrolytic cell electrodes and molten metallic crucibles.

MF

TiB2

No. CAS

12045-63-5

EINECS

234-961-4

The size of the size

5-10um

Pureness

99%

Shapes

Hexagonal crystal

Packing

Double antistatic packaging

Brand

TR-TiB2


Performance and properties of Titanium Diboride (TiB2) Powder:

1. High melting Point

2. High hardness

3. Wear Resistance

4. Resistant against acids

5. Excellent conductivity

6. High thermal conductivity

How does Titanium Diboride (TiB2) Powder get produced?
Titanium Diboride, TiB2, is the most stable titanium boron compound. This material does appear in nature. However, it can be synthesized through carbothermal oxidation of B2O3 and TiO2. TiB2 has a high resistance to sintering, and is typically compacted with hot pressing. TiB2 is sinterable without pressure, but this requires liquid sintering additives like iron, chromium, and carbon.
TiB2 doesn’t exist in nature. Titanium diboride is prepared using various high-temperature techniques, including the direct reaction of titanium or its hydride/oxide. Thermite reduction carbothermal has been used in different synthesis pathways when the elemental boron temperature exceeds 1000degC. The preparation of titanium diboride was done in large amounts using electrochemical synthesis, solid-state reaction and other synthesis pathways.

Technical Parameter for TiB2 Titanium Diboride :

Chemical Composition It is a good idea to use a different language. B. The following are some of the reasons why you should consider hiring someone else Si Fe You can also find out more about P S
Test Result % Balance 31 0.45 0.009 0.19 0.01 0.02


Application: Titanium Diboride (TiB2) Powder:

Titanium Diboride, or TiB2, is a tough material with a high degree of strength and wear resistance. High density, coupled with high elastic modulus and compressive strength has led to the use of armor components.
It is resistant to most chemicals and exhibits excellent stability and wettability when used with liquid metals, such as zinc or aluminum. Due to this, and because of its high electrical conductivity, it is used in Hall Heroult cell for aluminum production. It can also be used to crucify molten metallic liquids. TiB2’s high hardness, melting point and chemical neutrality make it a good candidate for a variety of applications.
Ballistic Armor
High hardness and medium-strength make it attractive for ballistic armour, but its relative high density and difficult to form shaped parts makes it less attractive than other ceramics.
Aluminum Smelting
TiB2’s chemical inertness, combined with its good conductivity, has made it a popular cathode for Hall-Heroult Batteries used for primary aluminium fusion. The crucible can also be used for metal evaporation boats and to process molten steel.
Other uses
High hardness, good strength and wear resistance makes titanium diboride an ideal material for seals, wearing parts, composite materials and cutting tool materials.
TiB2 is combined with other oxide ceramics to create composite materials. The material increases the strength and toughness of the matrix.
Possible applications of TiB2
TiB2 has a very limited range of uses, which include cutting tools, impact-resistant armor and neutron absorbers, as well as wear-resistant titanium dioxide coating.
TiB2 is used widely as a vaporizer to vaporize aluminium. In the aluminum industry it can be used for grain refinement in casting aluminum alloys due to its low solubility and electrical conductivity.
The TiB2 film can be used as a corrosion-resistant coating on substrates, whether they are strong or inexpensive.

Storage condition of Titanium Diboride (TiB2) Powder:
Titanium Diboride TiB2 POWDER dispersion effects and uses, so the titanium diboride TiB2 should be stored in a cool, dry, and vacuum-packed room. The titanium diboride TiB2 cannot be exposed to air. TiB2 Powder should not be exposed to stress.

Packing & Shipping Titanium diboride TiB2 powder :
The packaging we use depends on how much titanium diboride (TiB2) powder you need.
Titanium diboride TiB2 powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Titanium Diboride TiB2 Powder shipping: can be sent out by sea, air or express as quickly as possible after receipt of payment.


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Titanium Boride Properties

Alternative Names TiB2, TiB2 powder, titanium boride powder
CAS Number 12045-63-5
Compound Formula TiB2
Molecular Mass 69.489
Appearance Gray Powder
Melting Point 2980 degC
Boiling Point N/A
Density 4.52 g/cm3
Solubility In H2O N/A
Thermal Expansion coefficient 8.1×10-6m/m.k
Thermal Conduction 25J/m.s.k
Electrical Resistivity 14.4mO.cm
Exact Weight 69.96656

Titanium Boride Safety & Security Information

Sign Word Warning
Hazard Statements H302-H312-H332
Hazard Codes Xn
Risk Codes 20/21/22
Safety Declarations 36
RTECS Number N/A
Transport Information N/A
WGK Germany 3

Titanium diboride, or TiB2, is the most stable of all the compounds containing boron and titan. It is a C32-type structure that is bonded by its valence. It is a compound of hexagonal metalloid. Purity:>99% Particle size: 5- 10um Titanium Diboride TiB2 powder Titanium diboride, or Titanium boridepowder has a… Continue reading

FMEE Fatty Methyl Ester Ethoxylates CAS 65218-33-7 |

FMEE is a fatty methyl esters ethoxylates. It offers excellent cleaning at low temperatures (below 60%).Active matter content (%): 98-98, 80-82

FMEE (Fatty Methyl Ester Ethoxylates) :
FMEE (Fatty Methyl Ester Ethoxylates) is a non-ionic low foamed surface active agent. Under low temperatures (below 60 degrees), it has excellent net cleaning performance. Two types are available: P816 & 24-09.
FMEE Fatty Methyl Ester Ethoxylates is a trusted FMEE Fatty Methyl Ethoxylates. Please send us an inquiry to receive the latest. Prices of FMEE Fatty Methyl Ester Ethoxylates If you want to buy FMEE (Fatty Methyl Ester Ethoxylates) in bulk.

Product performance FMEE Fatty Methyl Ester Ethoxylates :
FMEE Fatty Methyl Ester Ethoxylates is a molecular formula that has Ester, which is similar to wax and oil structure. Oil, mineral oils, and paraffin wand have strong removal and dissolution ability, based on the principle of phase similar dissolution. The cloud point of this product is between 98 to 103 degrees, which allows it to be used in high-temperature processes. It has a liquid point of -5°C and is still fluid at this temperature, which makes it superior to the AEO and TX Series. FMEE, when near zero, is no longer clear and is cloudy. It still has good flow. FMEE Fatty Ester Ethoxylates had a significantly higher infiltration rate than AEO-9 and AEO-7. As a test solution, 5g/L was used. The settling time on standard canvas was then used to represent infiltration.

Technical Parameter FMEE (Fatty Methyl Ester Ethoxylates)
P816 24-09
Appearance (25) White to yellow fluid White or light-yellow fuzzy liquid
Carbon chain length C16-18 C12-14
Active matter content (%) 80-82% 98%
pH(25, 1%) 5.5-7.0 5.0-7.0
Cloud point () 72-78 52
Condensation point() 9-14

Production of FMEE (Fatty Methyl Ester Ethoxylates)
Three different production routes exist for FMEE Fat Methyl Ester Ethoxylates.
First, fatty acid is ethoxylated in order to get polyoxyethylene ether. Next, methanol is esterified to get. The second step is methanol polyether ethoxylation, followed by esterification with fatty acids. Two-step processes, high cost and low content of active material, polyethylene glycol or diesters are the by-products of these two routes. The third process involves the addition of fatty acids methyl ester to ethylene oxide. The process is simple and low-cost. This synthesis is used by the FMEE production companies, like Sihe Petroleum or Malepine Petroleum.

Application FMEE FMEE:
FMEE Fatty Methyl Ester Ethoxylates are used in secondary oil flooding on the oilfield. Flotation is a beneficiation process that can be applied in mining. FMEE can clean, metal degreasing and degreasing. In the textile printing and dyeing industries, it can be used to remove oil and wax. It is also used for cleaning household products and daily cleaning.

Packing & Shipping of FMEE (Fatty Methyl Ester Ethoxylates) :
The packaging is based on the quantity of FMEE (Fatty Metyl Ester Ethoxylates).
FMEE Fatty Methyl Ester Ethoxylates packing: 1kg per bottle, 25kg per barrel, or 200kg per barrel.
FMEE shipping fatty methyl ester ethoxylates Once payment has been received, goods can be shipped by sea, air or express as soon as practicable.

FMEE Fatty methyl Ester Ethoxylates

Alternative Names N/A
CAS Number 65218-33-7
Compound Formula N/A
Molecular Mass N/A
Appearance White or light yellow liquid
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Mass N/A

Safety Information on FMEE Fatty Methyl Ester Ethoxylates

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information
N/A

FMEE is a fatty methyl esters ethoxylates. It offers excellent cleaning at low temperatures (below 60%).Active matter content (%): 98-98, 80-82 FMEE (Fatty Methyl Ester Ethoxylates) : FMEE (Fatty Methyl Ester Ethoxylates) is a non-ionic low foamed surface active agent. Under low temperatures (below 60 degrees), it has excellent net… Continue reading

High Purity Tungsten Carbide WC Powder Cas 12070-12-1, 99% |

Tungsten carbide is composed of carbon and tungsten. The molecular mass is 195.85 and the formula is WC.Particle Size: 325mesh
Purity: 99%

About Tungsten Carbide WC Powder:
Tungsten carbide It is composed of carbon and tungsten. Tungsten carbide formula It is a WC Tungsten carbide Molecular weight It is 195.85.
Tungsten carbide color: The most basic form is a fine, gray powder. However, it can be pressed to shape through a sintering process for use in industrial machines, cutting tools and bullets capable of penetrating armor.

Young’s Modulus (about 530-700 GPa) is double that of steel. It is also almost as dense as gold. Its hardness can be compared to corundum, (a-Al2O3). For polishing, only diamond powder, cubic boron carbide, and grinding wheels with high hardness compounds are used.
Tungsten carbide is also used for making tungsten carbide rings , tungsten carbide mens rings , tungsten carbide wedding bands , tungsten carbide mens wedding bands, etc. Because tungsten carbide rings price The tungsten-carbide ring is less expensive than platinum or gold rings. It’s also scratch-resistant and comes in a variety of colors, styles and inlays. black tungsten carbide rings , tungsten carbide rings gold .

Black tungsten carbide This hexagonal crystal has the same metallic luster as a diamond and is just as hard. It is also a good heat and electric conductor. Tungsten carbide is not soluble with water, hydrochloric, or sulfuric acid. However, it can be dissolved in a mix of nitric and hydrofluoric acids. If a small amount titanium, cobalt or other metals is added to the pure tungsten, it can reduce its fragility. Tungsten carbide used in steel cutting tools is sometimes mixed with titanium carbide and tantalum carbide or their mixtures to improve anti-knock abilities. Tungsten carbide is chemically stable. Tungsten carbide used as a powder in the production of cemented carbide.

Send an inquiry for the latest news Price of tungsten carbide You can also contact us if you have any questions. buy tungsten carbide Powder in bulk

Performance of Tungsten carbide WC Powder
The crystals are hexagonal black; the melting point is 2870 deg C, plus or minus 50 deg C. Boiling temperature is 6000 deg C. Dissolved with nitric and hydrofluoric acids; also, in aqua regia.

Tungsten Carbide WC Powder Technical Parameters
WC Molecular Weight Total Carbon Free Carbon The following are some of the reasons why you should consider hiring someone else As you can see, Bilingual Ca Cd
99.95 195.86 6.13-6.18 0.05 0.05 0.001 0.0003 0.0015 0.0005
Curiosity Fe K Mn Na Mo You can also find out more about P Pb
0.005 0.0003 0.015 0.002 0.001 0.002 0.003 0.001 0.0003
Sb Si Sn It is a good idea to use a different language. You can also find out more about V You can also find us on Twitter @Ni Co S Al
0.0005 0.0015 0.0003 0.001 0.001 0.005 0.01 0.001 0.001

How do you pronounce Tungsten Carbide WC Powder produced?
The tungsten metal and the carbon are used as raw materials. The tungsten with a particle size of between 3 and 5 mm, and the carbon black with the same quantity is dry mixed in a ball-mill, then fully mixed and pressed into a plate of graphite. It can also be heated in an induction oven to temperatures of 14001700, or preferably to 15501650. In the hydrogen flow, W2C first forms and is then heated to high temperatures in order to produce WC. Or, the tungsten is decomposed thermally at 650-1100degC by CO to yield tungsten, which then reacts with carbon monoxide to give WC at 1150degC. W2C is produced by temperatures above this point.
Chemical reaction formula
2W + W2C
W + C = WC
Tungsten trioxide, WO3, is hydrogenated and then reduced to form tungsten (average particle size of 35mm). Press-forming is done by pressing a mixture of tungsten and carbon black (dry-blended for about 10 hrs in a mill) under 1t/cm2 pressure. In a graphite crucible or pan, heat the material to 14001700°C (15501650°C is preferred) in hydrogen using a graphite resistence furnace or induction electric heater. It is important to note that the reaction begins around the tungsten particle, as W2C will be generated in the initial stages of the process. However, the reaction may not be complete (primarily because the temperature is too low) and unreacted tungsten and intermediate W2C are left over. The tungsten must be heated at the temperature above. The maximum temperature must be determined according the particle size. For coarse particles, with an average particle diameter of approximately 150 mm the reaction takes place at a temperature between 1550 and 1650degC.
Chemical reaction formula
WO3 + W + 3H2O
2WO3 + 3C – 2W + 3CO2
2W + W2C
W + C = WC

Applications Tungsten Carbide WC Powder:
Tungsten carbide is used in many applications, including high-speed cutters, furnace structural materials and jet engine parts. It can also be found as resistance heating elements, cermet material, and cermet materials. Uses include cutting tools, wear-resistant components, melting crucibles (for metals such copper, cobalt, bismuth), and wear-resistant silicon films.
Tungsten carbide is used for super-hard tool materials and wear-resistant metal.
Tungsten carbide can be used in conjunction with many other carbides to form a solid mixture. WC-TiC-Co bonded-carbide tools have been widely utilized.
Tungsten carburide can be used to modify the carbides NbCC and TaCC, which will reduce the sintering temp and keep excellent performance. It can be used for aerospace materials.
Tungsten carbide can be made by combining tungsten anhydride with graphite under a reducing atmospheric at temperatures between 14001600. By hot pressing sintering, or hot isostatic sintering, dense ceramic products can also be produced.
Tungsten Carbide (WC), powder, can also be utilized to create high-capability nanocrystalline or superfine alloys. It is also used to make petrochemical cracking catalysts and hard-face abrasion and corrosion-resistant spraying.

Tungsten Carbide WC Powder Storage Conditions
Tungsten carbide WC powder performance and effects of use, therefore, niobium carbonate NbC powder must be sealed and stored in cool, dry rooms. Niobium Carbonate cannot be exposed to the air. NbC powder must also not be exposed to stress.

Packing & Shipping Tungsten Carbide WC powder
The quantity of Niobium Carbide NbC powder will determine the type of packaging we use.
Tungsten carbide WC powder packing: As per your request, vacuum packaging is available in 1kg/bags, 25kg/barrels, or both.
Tungsten carbide WC powder shipping: After payment, you can ship your order by air or sea as soon as possible.


Technology Co. Ltd., () is an established global chemical material manufacturer and supplier with over 12 years’ experience in the production of high-quality nanomaterials. These include boride powders, graphite or nitride particles, as well as sulfide and sulfide-based powders for 3D printing.
Contact us to send us an inquiry if you are interested in high-quality tungsten carbide powder. (brad@ihpa.net)

Tungsten Carbide Properties

Alternative Names tungsten(IV) carbide, WC powder
CAS Number 12070-12-1
Compound Formula WC
Molecular Mass 195.86
Appearance Gray Black Powder
Melting Point 2870
Boiling Point 6000
Density 15 g/cm3
Solubility In H2O N/A
Electrical Resistivity 1 10x O-m
Poisson’s Ratio 0.24
Specific Heating 280 J/kg-K
Tensile Strength 350 MPa
Thermal Conduction 85 W/m-K
Thermal Expander 5.4 um/m-K
Youngs Modulus 630 GPa
Exact Count N/A

Tungsten Carbide Health & Safety Information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information N/A

Tungsten carbide is composed of carbon and tungsten. The molecular mass is 195.85 and the formula is WC.Particle Size: 325mesh Purity: 99% About Tungsten Carbide WC Powder: Tungsten carbide It is composed of carbon and tungsten. Tungsten carbide formula It is a WC Tungsten carbide Molecular weight It is 195.85…. Continue reading

DPNP Dipropylene glycol n-propyl ether |

Dipropylene glycol, N-propyl Ether is mainly used in industrial solvents, water-based paints, oil films, detergents. Also, it can be used to make agricultural products, cosmetics and electronic inks.

DPNP (Dipropylene glycol n -propyl ether): Dipropylene glycol-n-propyl-ether is an ionic surfactant. It’s a colorless liquid that has a faint ether taste. It’s soluble with water and miscible in most organic solvents.
It is a global trusted brand DPNP Dipropylene glycol n-propyl ether . Send an inquiry for the latest. Prices of DPNP Dipropylene glycol n-propyl ether. You can purchase DPNP Dipropylene n-propyl ether Bulk discounts are available.

Product Performance of DPNP dipropylene n-propylether
DPNP dipropylene glycol n -propyl ether is characterized by its dynamic surface tension.

Technical Parameters of DPNP (Dipropylene glycol npropyl ether)
Product name Odor Appearance
DPNP Dipropylene glycol n-propyl ether Weak ether flavor Colorless transparent liquid

Applicable DPNP Dipropylene glycol n-propyl ether :
Dipropylene Glycol N-Propyl Ether can be used as a solvent for industry, oil film, paints and detergents. As an alternative to alcohol solvent, it is a good coupling agents in the dye dissolution process. Propylene ether can improve printing quality, reduce ink toxicity, and improve the working environment when producing ink. Dipropylene N-propyl Ether is a film-forming agent in water-based coatings. N-propyl Ether is used in cleaning agents. It’s especially useful for systems requiring low volatile rates such as floor cleaners and wax removers. It is an excellent coupling agent and can also be used for paint removal and animal grease. Dipropylene glycol, N-Propyl Ether can be used for agricultural products, cosmetics and electronic inks.

Shipping & Packing of DPNP (Dipropylene glycol npropyl ether):
We offer a variety of packing depending on what you need. DPNP Dipropylene glycol n-propyl ether quantity.
DPNP Dipropylene glycol n-propyl ether packing: 1kg per bottle, 25kg per barrel, or 200kg per barrel.
DPNP Dipropylene glycol n-propyl ether shipping: Once payment has been received, goods can be shipped by air, by sea, or by express.

DPNP Dipropylene glycol n-propyl ether Properties

Other Name N/A
CAS Number 29911-27-1
Compound Formula N/A
Molecular Mass N/A
Appearance Colorless transparent liquid
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Mass N/A

Health and Safety Information DPNP (Dipropylene glycol, n-propyl Ether)

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information
N/A

Dipropylene glycol, N-propyl Ether is mainly used in industrial solvents, water-based paints, oil films, detergents. Also, it can be used to make agricultural products, cosmetics and electronic inks. DPNP (Dipropylene glycol n -propyl ether): Dipropylene glycol-n-propyl-ether is an ionic surfactant. It’s a colorless liquid that has a faint ether taste…. Continue reading

MS-1 Alkylphenol Ether Sulfosuccinate Sodium Salt |

Solvable in hot and general solvents. Good emulsification properties, good dispersibility and wettability.

MS-1 Alkylphenol Sulfosuccinate, Sodium Salt MS-1 Alkylphenol Sulfosuccinate Salt has rich and fine foam. Low degreasing powers, low irritation of skin and hair.
It is a global trusted brand MS-1 Alkylphenol Ether Salt . Send an inquiry for the latest. Prices of MS-1 Alkylphenol Ether Salt If you want to purchase MS-1 Alkylphenol-Ether Sulfosuccinate Sodium Salt.

Product Performance of MS-1 Alkylphenol Ether Salt:
MS-1 Alkylphenol Sulfosuccinate Sodium Salt is a mild decontaminant that makes skin more comfortable after washing. It can also improve the combability, softness and shine of the hair.

Technical Parameter MS-1 Alkylphenol Ether Sulfosuccinate, Sodium Salt
Product Code Shortname Effective substances content PH Odor Appearance
Alkylphenol Ether Sodium Sulfosuccinate MS-1 NA NA A slight characteristic smell Liquid or jelly that is transparent and colorless, but can be yellow.

Applications MS-1 Alkylphenol Ether Sulfosuccinate, Sodium Salt Slurry conditioners are used in the synthetic detergent industry. It is used in synthetic detergents to improve fluidity and reduce viscosity. It also reduces energy consumption and increases production. It is used in oilfield drilling as well.

MS-1 Alkylphenol Ether Sodium Sulfosuccinate Salt:
The packaging options are dependent on the MS-1 Alkylphenol Ether Sulfosuccinate Salt quantity.
MS-1 Alkylphenol Ether Sulfosuccinate sodium Salt packaging: 1kg/bottle. 25kg/barrel. 200kg/barrel.
MS-1 Alkylphenol Sulfosuccinate Salt Shipping: As soon as payment receipt is received, you can ship out your order by sea, air or express.

MS-1 Properties of Alkylphenol Ether Sulfosuccinate Salt

Alternative Names N/A
CAS Number N/A
Compound Formula N/A
Molecular Mass N/A
Appearance NA
Melting Point N/A
Boiling Point N/A
Density N/A
Solubility In H2O N/A
Exact Matrix N/A

MS-1 Alkylphenol Ether Sodium Sulfosuccinate Health & Safety information

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information
N/A

Solvable in hot and general solvents. Good emulsification properties, good dispersibility and wettability. MS-1 Alkylphenol Sulfosuccinate, Sodium Salt MS-1 Alkylphenol Sulfosuccinate Salt has rich and fine foam. Low degreasing powers, low irritation of skin and hair. It is a global trusted brand MS-1 Alkylphenol Ether Salt . Send an inquiry… Continue reading

High Purity Gallium (III) Oxide Ga2O3 Powder CAS 12024-21-4, 99.9% |

Ga2O3 can be used to make an ultraviolet filter and an insulating coating for Ga-based semiconductors. Purity: 99.9%
Particle Size: 100 mesh

The following is a list of the most recent articles about Gallium (III) Oxide Ga2O3 Powder :
Gallium oxide Is an inorganic compound. Gallium oxide Chemical Formula It is a good idea to use a bilingual translator Ga2O3 . It is also called gallium trioxide , a wide-bandgap semiconductor, Eg=4.9eV.
What kind of substance is Gallium Oxide?
Ga Oxide It is an insoluble, thermally stable Gallium that can be used to make glass, ceramics and optical applications. The precipitation is due to the neutralization acidic or base gallium salt solutions. Oxide compounds cannot conduct electricity.
Is Gallium Oxide a Gas?
Gallium(I), a brown-black diamagnetic, solid is resistant in air to further oxidation. Decomposition begins at temperatures higher than 500 degC. The rate of decomposition depends on the atmospheric conditions (vacuum gas, air, or inert gases).
Ga2O3 has a large number of potential applications, including in optoelectronics. It’s used as a layer to insulate Ga-based materials, and also for ultraviolet filters. It can also serve as an O2 chemical sensor.
The burning of Ga2O3 renders it insoluble even in concentrated nitric acids and insoluble aqueous solutions with strong bases. The only way to dissolve it is by melting NaOH KOH KhSO4 and K2S2O7 together. Gallium chloride may be made by melting with twice as many NH4Cl while at 250. Ga2O3 forms vitreous when heated to red heat. Red heat is also capable of reacting with glazed crucibles.
Is gallium oxide toxic?
Oral LD50 10000mg/kg (mus), low toxicity through ingestion. Gallium oxide inhaled by rats for two hours per day, for 20 days, caused severe pulmonary inflammation.

It is a global trusted brand Gallium (III) Oxide Ga2O3 Powder supplier. Send an inquiry to the latest supplier Ga2O3 price At any time.

Performance of Gallium Oxide Ga2O3 :
Gallium oxide (Ga2O3) is a triangular, white crystalline particle. It has a chemical formula Ga2O3 and is not soluble with water. However, it can be dissolved in acid or alkaline hot solutions. Ga2O3 can be dissolved in dilute mineral acid and alkali-metal hydroxides.

Technical Parameter of Gallium Oxide Ga2O3 Particle :
Product Name MF Purity Particle Size Melting Point Molecular weight Color
Gallium Oxide Ga2O3 99.9% -100 mesh 1740 187.44 White
How do you pronounce Gallium (III) Oxide Ga2O3 Powder Produced?
1. Add NaHCO3 at a high level to the GaCl3 hot water solution, and then boil the mixture until all of the gallium chloride has precipitated. The precipitation must be washed until it is free of Cl-. It is then calcined over 600 to produce bGa2O3. When NH4Cl still remains, Ga2O3 reacts at a temperature of 250 to produce volatile GaCl3.
2. Here is a method to make high-purity Ga2O3.Ga (NH4)(SO4)2 has been crystallized multiple times, dried at 105 and burned at 800-for 2h in excess oxygen. A product with a 99.99% purity 99.9999% has been obtained.
3. Add 1kg99.9999% gallium to a three necked flask. Add high purity nitric, dissolve all the gallium. Then filter. Pour the filtrate into another three necked flask and place it in the electric furnace (in the fume cabinet) for evaporation. The solution should be moved into an evaporation tray when it is close to a crystallization. The Ga (NO3)3 that was evaporated at 550 was then burned for five hours in a muffle. After cooling the product, 1.2kg of gallium oxide high purity was obtained.

Applications Gallium (III) Oxide Ga2O3 Powder :
In the past, gallium oxide was used to study lasers. Gallium dioxide is used as a barrier to tight connections.
Monoclinal bGa2O3 has a wide range of applications, including gas sensors, luminescent phosphors and solar cell dielectric coatings.
In semiconductor; Gas sensors; in the field of catalyst, gallium oxide was also used.
Application of gallium dioxide nanostructures as ultraviolet and blue light emitters in optical-electronic device.
This stable oxide shows promise for applications in deep ultraviolet transparent conductive oxides and transistors.
Thin Ga2O3 films are a valuable commercial material as they are gas-sensitive.
Ss-Gallium oxide (III) is used in the production of Ga2O3 – Al2O3 catalyst.

Storage Conditions of Gallium Oxide Ga2O3 :

Gallium oxide cannot be exposed to the air. Therefore, it should be packed in vacuum and kept in a cool and dry place. Ga2O3 Powder should not be stressed.


Shipping & Packaging of Gallium oxide Ga2O3 Powder
The packaging we use depends on the amount of gallium dioxide Ga2O3 powder.
Gallium oxide powder Ga2O3: There are many options for vacuum packaging.
Shipment of Ga2O3 Powder: After payment, you can ship your order by air, sea or express.


Technology Co. Ltd., () is an established global chemical material manufacturer and supplier with more than a decade of experience. They provide high-quality nanomaterials such as boride powders, graphite or nitride particles, 3D printing powders, sulfide particles, etc.
Looking for high quality ga oxide powder Contact us by sending an email. (brad@ihpa.net)

Gallium Oxide Powder Properties

Alternative Names Digallium trioxide, Gallium sesquioxide, Gallia,
Oxo-oxogallanyloxy-gallane, Gallium(III) oxide,
Gallium trioxide
CAS Number 12024-21-4
Compound Formula Ga2O3
Molecular Mass 187.44
Appearance White Powder
Melting Point 1900
Boiling Point N/A
Density 5.88 g/cm3
Solubility In H2O N/A
Exact Quantity 187.835 g/mol
Monoisotopic Mash 185.835906

Safety and Health Information on Gallium Oxide powder

Sign Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Declarations N/A
Transport Information NONH for All Transport Modes

Ga2O3 can be used to make an ultraviolet filter and an insulating coating for Ga-based semiconductors. Purity: 99.9% Particle Size: 100 mesh The following is a list of the most recent articles about Gallium (III) Oxide Ga2O3 Powder : Gallium oxide Is an inorganic compound. Gallium oxide Chemical Formula It… Continue reading

Eight Knowledge of Nano Silica Fume

What’s nano silicon? It can be made in two ways. The first method is to use a magnesiothermic reaction of rice husks. Rice husks are a plentiful by-product in the rice industry. This method produces nanosilicon with the same reversible capability and conductivity of traditional silicon.

Nano-Si exhibits high surface activity, and is highly pure. It is also nontoxic and has high surface area. It’s used in devices that produce high-power lights. These devices produce light by using nano-Si. The nano-Si particles have a very small diameter, around 5 nanometers.

The chemical vapour deposit or mechanical ball-milling can be used to synthesize silicon nanoparticles. Also, silicon nanopowder may be made by plasma evaporation or condensation. In the West, nano-Si is produced industrially by specialised companies. Chemical book of Japan and DuPont of United States are among these companies. H.C. Stark of Germany is another. These companies manufacture a nano-Si Powder with different particle size and high purity.

Nano-Si powder is composed of a porous, porous network of nanoparticles made of crystalline silica. HRTEM allows for the visualization of this network. The nanoparticles measure 8-10nm but there are also larger particles. The porosity is due to the selective etching. It contains NaCl which is a solvent to prevent local melting.

How is nanopowder utilized?
Nano silica fume has a very high surface area. It has a higher content of amorphous silicas than quartz, which influences its chemical and physical reactivity. It has a greater pozzolanic-activity index than quartz, which is about 330 times higher than a single gram of pozzolan. It is because of the difference between the proportions and types of aluminium in quartz powder and silica dust.

The use of nano silica fume can improve the mechanical properties in concrete. It can increase the density of concrete by thickening and speeding up hydration. Also, it improves concrete’s properties such as its compressive and flexible strengths. The percentage of a silica-fume mixture in concrete will determine its split strength, compressive strength, and tensile strength.

The use of nanosilica fume in concrete has been studied for different applications. It can improve concrete strength and act as a catalyst to enable the formation of new materials. It is also used in the manufacture of high-performance abrasives, polymers, and elastomers. The fume is also used to make ceramics. You can obtain nano-silica from many sources, such as f type fly ash or silica fume.

What is nano silica?
What is nano-silica powder? Recent studies have shown that alkaline extracting can be used to produce a nano-silica powder with high purity. This method is an alternative for decomposing RHA under oxidizing conditions, which would require high energy inputs. This new technique involves alkaline precipitation and acid extraction.

Nano silica is composed of nanoparticles that are different in size, shape, and orientation. It comes in both colloidal and dried forms. While colloidal particles can be suspended, dry nanoparticles might behave differently.

You can make high-purity nano silica from agricultural waste products such as rice husk. This source is environmentally friendly and contains a high level of silica. The process is reliable, cost-effective and efficient.

What is nanosilicon?
A new method has been developed to create spherical nanowires of silicon. High-energy electrons are used to break down the silane gas and release silicon atoms. The result is silicon nanoparticles between 20 to 80 nanometers. The researchers plan to extend the process to other materials.

The two main methods to create nanoparticles using porous silica are electrochemical etching or ultrasonication. Porous silicon can be used to prepare hybrid preparations as it is relatively easy for a nanocrystalline coating to form. After a thin coating of this film is created, it can be broken down using various techniques like ultrasonics.

The raw powder is heated to high temperatures using a thermal jet. The high energy plasma jet creates vaporized silica nuclei that are collected off the inner surface of reaction tube and the chamber cover. These silicon nanomaterials can be further analyzed with field emission scanning electromicroscopy. The size of the nanomaterials is measured using image processing software. The resultant product is then identified with X-ray difractometry.

What are the side effect of nanoparticles
Nanoparticles, which are tiny particles that can harm the health of people and other animals, may pose a danger to their health. While many studies on the effects of Nanoparticles have been conducted in humans, there is no certainty that the same risks will apply to other species. In studies on human subjects, researchers found that exposure of nanoparticles increased the risk of cardiovascular diseases and lung injuries.

There are concerns regarding their toxicity, even though nanoparticles can be biocompatible and used in many biomedical fields. Toxicity can be affected by the dose and site of deposition. To better understand the mechanisms behind toxicity and to determine the optimal concentration of the product for human use, studies are being conducted.

Nanoparticles are a powerful tool in medicine. They can also be used to deliver drugs, as contrast agents or fluorescent labels. Nanoparticles can be classified by their one-dimensional sizes of 1 to 100 nanometers. Due to their small size they are able to penetrate cell membranes while stabilizing proteins. After endocytosis, nanoparticles may escape the lysosomes.

Who invented nano silica?
Several factors influence the performance of nano silica as a nanotechnology material. First, its particles have an extremely small size. Approximately 95% of the particles are smaller that one millimeter. The second reason is that its physical properties are excellent, making it an ideal material for use in nanotechnology. This material comes in a high-end white or grey color and is composed of pure silica, but not in its crystalline form. It can be identified by its X-ray diffractive properties.

Nano silica is a very fine powder that has many uses. It is a pozzolanic, amorphous by-product from silicon smelting with an average particle size of 150 nm. It’s used in high performance concrete and other products requiring a high-performance product. It’s often confused with silica fume, but these two materials are completely different.

In the first research, researchers discovered that nano-silica fume increased concrete’s compressive strength. It was especially used in concretes that contained a lot of fly ash. The inclusion of this material in concrete increased the strength at an early age and the 28-day compressive strengths.

Is silica harmful?
The production of a wide range of concretes uses silica fume. It has a high resistance to acid, alkalis, as well as other aggressive substances. However, there are some disadvantages.
It’s not easy to compact and place.
Silica fume increases water content in concrete mixes.
Silica fumes cement is costly because it needs a plasticizer.

Building construction, particularly high-rises, is a common use of silica fume. Small particles of silica fume provide concrete with better mechanical properties. The material is used for marine structures such as ships. It provides greater resistance to chloride.

Nano silica is a material that has countless benefits. It can reduce the time it takes for concrete to set and improve its mechanical properties. It increases durability, improves hydration and lowers construction costs. It can also reduce bleeding and enhance early strength development.

Is nano silica eco-friendly?
Silica fume can be used as a microsilica to produce concrete. In concrete, the use of nanosilica reduces waste. Nano-silica is harmful to the human body, according to many studies. Currently, there are no substitutes for nanosilica in mortar or concrete.

While the use of SF/NS is growing exponentially, their health and environmental risks are becoming increasingly important. Deterioration of groundwater is also a serious risk. Silicosis – a potentially fatal lung condition – has been linked with crystalline silica dust. Amorphous silica fume, however, does not carry this risk.

The pozzolanic behaviours of microsilica are similar to those of nanosilica. The nano silica is smaller and has a greater surface area. This will cause it to react faster with cement.

Nano Silicon Powder Price
Many factors influence the price, such as the economic activity, the sentiment of the market and the unexpected event.
You can contact us for a quotation if you want to know the current price of Amorphous Boron. (brad@ihpa.net)

Nano Silicon Powder Supplier
Technology Co. Ltd. has been supplying Amorphous Boron Powder for over 12 years. We ship all around the world.

Send us an email if you would like to know more about Amorphous Boron powder. (brad@ihpa.net)

What’s nano silicon? It can be made in two ways. The first method is to use a magnesiothermic reaction of rice husks. Rice husks are a plentiful by-product in the rice industry. This method produces nanosilicon with the same reversible capability and conductivity of traditional silicon. Nano-Si exhibits high surface… Continue reading