About C12-16 Alcohol ethoxypropoxylates:Emulsifying, degreasing, low odor, low foam, medium and high-temperature foam-free, biodegradable, wet.Tqhp is a trusted global Guerbet C12 alcohol ethoxylate. Feel free to send an inquiry to get the latest…
About C12-16 Alcohol ethoxypropoxylates:
Emulsifying, degreasing, low odor, low foam, medium and high-temperature foam-free, biodegradable, wet.
Tqhp is a trusted global Guerbet C12 alcohol ethoxylate. Feel free to send an inquiry to get the latest price of C12-16 Alcohol ethoxypropoxylates. If you would like to buy C12-16 Alcohol ethoxypropoxylates in bulk.
Product Performance of C12-16 Alcohol ethoxypropoxylates:
Emulsifying, degreasing, low odor, low foam, medium and high-temperature foam-free, biodegradable, wet.
Technical Parameter of C12-16 Alcohol ethoxypropoxylates:
Appearance(25℃) | Colorless liquid |
Content(%) | 99 |
Cloud point(1%Aqueous solution,℃) | 35-38 |
Density(kg/m3) | 1001 |
ph(25℃,1%Aqueous solution) | 5-7 |
Applications of C12-16 Alcohol ethoxypropoxylates:
CIP cleaning, low bubble cleaning, metal cleaning, glass cleaning, general cleaning agent.
Packing & Shipping of C12-16 Alcohol ethoxypropoxylates:
We have many different kinds of packing which depend on C12-16 Alcohol ethoxypropoxylates quantity.
C12-16 Alcohol ethoxypropoxylates packing: C12-16 Alcohol ethoxypropoxylates kg/bottle, 25kg/barrel, or 200kg/ barrel.
C12-16 Alcohol ethoxypropoxylates shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
C12-16 Alcohol ethoxypropoxylates Properties |
Other Names | C12-16 alcohol ethoxy propoxy compound |
CAS No. | 68213-24-1 |
Compound Formula | N/A |
Molecular Weight | N/A |
Appearance | Colorless liquid |
Melting Point | N/A |
Boiling Point | N/A |
Density | N/A |
Solubility in H2O | N/A |
Exact Mass | N/A |
C12-16 Alcohol ethoxypropoxylates 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 |
Technical Background Ceramic materials made from aluminum-mgb are known for their high hardness, high abrasion resistance, and high chemical stability. This makes them a popular choice in both military and high-tech equipment….
Technical Background
Ceramic materials made from aluminum-mgb are known for their high hardness, high abrasion resistance, and high chemical stability. This makes them a popular choice in both military and high-tech equipment. The limited application of aluminum-MgB ceramic materials is due to their weak toughness. There are currently several preparation methods for aluminum magnesium-boron ceramics. These include heat treatment, hot pressing sintering and mechanical alloying.
High energy consumption is a result of mechanical alloying hot press sintering. Iron pollution can be caused by ball grinding and quenching steel. The process can also cause iron contamination. High energy and cost are the main drawbacks of heat treatment. It is also easy to introduce impurities. Crystal evolution deposition and metal salt preparation methods are high-purity and can eliminate the formation of phase due to heat treatment. But they also have high energy costs, long cycles, and high prices. These methods may also be used to prepare aluminum magnesium boren ceramics. But there are many technical drawbacks and shortcomings.
Learn more about Preparation methods
Aluminum powder, magnesium, and boron raw materials are used. The boron is annealed using the appropriate proportions of aluminum, mechanical alloying and preloading activation. High-temperature pressure pressurized Sintering of aluminum magnesium, boron material block and dense microstructure. It has a hardness of 27.2GPa and fracture toughness at 3 mpa.m0.5.
Tqhp (aka. Tqhp is an advanced material. Global chemical supplier and manufacturer, Tqhp has over 12 years of experience in manufacturing super-high quality chemicals. High purity, small particles size, and low impurity are the hallmarks of the Aluminum Magnesium BoridePowder that our company produces. We can help you if the price is lower.
Inquiry us
About Hollow Glass Sphere Hollow Glass Beads:What is hollow glass microsphere? Hollow glass microspheres, sometimes termed microballoons or glass bubbles, have diameters ranging from 10 to 300 micrometers. Hollow spheres are used as…
About Hollow Glass Sphere Hollow Glass Beads:
What is hollow glass microsphere? Hollow glass microspheres, sometimes termed microballoons or glass bubbles, have diameters ranging from 10 to 300 micrometers. Hollow spheres are used as lightweight fillers in composite materials such as syntactic foam and lightweight concrete. The hollow glass bead is a kind of specially processed glass bead, which is mainly characterized by smaller density and poorer thermal conductivity than glass bead. It is a new kind of micron-grade light material developed in the 1950s and 1960s. Its main component is borosilicate, with a general particle size of 10~250μm and a wall thickness of 1~2μm. Hollow glass beads are characterized by high compressive strength, high melting point, high resistivity, small thermal conductivity and thermal shrinkage coefficient, etc., and they are known as the “space-age material” in the 21st century.
Hollow glass microspheres, also known as bubbles, microbubbles, or micro balloons, are usually formulated from borosilicate – sodium salt glass mixtures and offer the advantages of low density, high heat and chemical resistance. The walls of glass microspheres are rigid and are usually about 10% thick of the diameter of the spheres. At present, spherical particles have a wide range of densities, from as low as 0.06g/ C3 to as high as 0.80g/ C3, with particle sizes ranging from 5um to 180um. The compressive strength of the hollow sphere is determined by the wall thickness of the hollow sphere and, as expected, the greater the density of the sphere, the higher the compressive strength.The lightweight hollow glass sphere is chemically stable, non-flammable, non-porous, excellent water resistance. Tqhp is a trusted global Hollow Glass Sphere Hollow Glass Beads supplier. Feel free to send an inquiry about the latest price of Hollow Glass Sphere Hollow Glass Beads at any time.
Product Performance of Hollow Glass Sphere Hollow Glass Beads:
Hollow glass microspheres are micron-level hollow glass microspheres with a smooth surface. The main chemical component is borosilicate glass, and it is a hollow transparent sphere under the electron microscope. Hollow glass beads have low density, high strength, high temperature resistance, acid and alkali resistance, low thermal conductivity, electrical insulation and other properties. They have good fluidity and chemical stability, and they are multi-functional frontier new materials across fields.
Technical Parameter of Hollow Glass Sphere Hollow Glass Beads:
Product Name | Content | Particle Size | True Density | Bulk Density | Color |
Hollow Glass Sphere | Borosilicate glass | 5- 100um | 0.12-0.70 g/cm3 | 0.10-0.40 g/cm3 | White |
How are Hollow Glass Sphere Hollow Glass Beads Produced?
How do you make glass microspheres?
1. Glass powder method
The glass powder method uses pre-prepared glass powder containing gases such as SO3 to pass through the flame at the temperature of 1100-1500℃. At this time, SO3 and other gases dissolved in the glass powder overflow from the inside of the glass due to the decrease in solubility and the change in the atmosphere of the kiln. At the same time, the glass powder becomes spherical under high temperature due to the surface tension. The spillage gas is sealed in the spherical particles to form hollow glass beads.
2. Spray granulation method
Spray granulation method is made in advance with special auxiliary reagent (boric acid, urea, ammonium pentaborate) aqueous solution of sodium silicate, and then through the nozzle to the solution injection into the spray dryer, is expected to drop after drying to get a certain particle size of powder particles, the final will be powder particle heating foam-forming hollow glass beads.
3. The droplet method
The liquid drop method adopts the same raw materials as the spray granulation method. The raw materials are 500 copies of sodium silicate (M (SiO2): M (Na2O) =2), and the same amount of 10% ammonium perborate aqueous solution is added. After mixing evenly, the hollow glass beads are sprayed into the spray drying tower.
4. Dry gel method
The alkyl salt was added to dilute hydrochloric acid and decompose with water. After gelation, the gel was dried in two stages at 60℃ and 150℃ and then crushed by a ball mill. After grading, the dried gel powder was obtained, which was foamed in a vertical electric furnace at 1280℃ to prepare hollow glass microspheres.
Applications of Hollow Glass Sphere Hollow Glass Beads:
Hollow glass microspheres are widely used in glass fiber reinforced plastic products, composite foam plastic, artificial marble, compound wood, sound insulation heat preservation material, atomic ash, deep-sea buoyancy, bowling, low-density cement, sealing material, lightweight, resin handicraft, the mural wall hanging frame, wall plate sandwich layer structure of lightweight packaging materials, electronic industry, absorbing material, lightweight concrete, such as emulsion explosive.
Hollow glass microspheres also provide a conductive coating. Conductive coatings of optimized thickness provide spherical particles with excellent conductivity and shielding properties while maintaining the weight savings associated with hollow, low-density materials. These conductive microbubbles are suitable for military applications, biotechnology, medical devices, electronics and other special industries.
Hollow glass beads have obvious weight reduction and sound insulation and heat preservation effect so that the products have good cracking resistance and reprocessing performance, is widely used in engineering plastics, insulation materials, rubber, buoyancy material, FRP, artificial marble, man-made agate, generation of composite materials such as wood, and the oil industry, aerospace, communications, 5 g new high-speed trains, cars, ships, in areas such as thermal insulation coatings, adhesives, vigorously promote the development of science and technology.
Packing & Shipping of Hollow Glass Sphere Hollow Glass Beads:
We have many different kinds of packing which depend on hollow glass spheres quantity.
Hollow glass spheres packing: 1kg/bag, 25kg/barrel, or 200kg/ barrel.
Hollow glass spheres shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
Hollow Glass Spheres Properties |
Other Names | Hollow Glass Beads |
CAS No. | N/A |
Compound Formula | N/A |
Molecular Weight | N/A |
Appearance | White Powder |
Melting Point | N/A |
Boiling Point | N/A |
Density | 0.12-0.70 g/cm3 |
Solubility in H2O | N/A |
Exact Mass | N/A |
Hollow Glass Spheres 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 |
About Molybdenum Dithiophosphate liquid MoDTP:Friction and wear properties of molybdenum dithiophosphate (MoDTP) additive under reciprocating sliding conditions. The additive consisting of pure MODTP is not effective for paraffin-based oils but is effective…
About Molybdenum Dithiophosphate liquid MoDTP:
Friction and wear properties of molybdenum dithiophosphate (MoDTP) additive under reciprocating sliding conditions. The additive consisting of pure MODTP is not effective for paraffin-based oils but is effective for engine oils containing P-S compounds such as zinc dialkyl dithiophosphate. The addition of P-O, P-S compounds and MODTP was effective for base oil and engine oil.
The surface film of molybdenum dithiophosphate is mainly composed of molybdenum sulfide and iron phosphate on the surface and molybdenum trioxide and iron phosphate on the surface.
The friction and wear properties of molybdenum dithiocarbamate (MODTC) and molybdenum dithiocarbamate (MODTP) were studied under reciprocating sliding conditions. Both MODTC and MODTP reduce friction and wear.MoS2 – the based surface film is formed by MODTC.MoDTP is mainly composed of MoS{SUB 2} and FePO{SUB 4} at 120 ° C, and MoS{SUB 2}, MoO{SUB 3} and FePO{SUB 4} at 200 ° C.MoS{Sub 2} films on the surface can effectively reduce the friction.The friction coefficient decreases with the increase of MOS {Sub 2} concentration in the surface film.Compared with MODTP, MODTC has higher capability of MOS {SUB 2} formation.Therefore, MODTC is superior to MODTP in reducing friction. Tqhp is a trusted global Molybdenum Dithiophosphate liquid MoDTP supplier. Feel free to send an inquiry about the latest price of MoDTP at any time.
Product introduction about Molybdenum Dithiophosphate liquid MoDTP CAS 72030-25-2:
Molybdenum dialkyldithiophosphate(MoDTP) is an oil-soluble liquid organic molybdenum molybdenum antioxidation additive synthesized by advanced technology.
Liquid MoDTP is widely used in internal combustion engine oil, gear oil, grease and some industrial oil, which can improve the friction Anti-wear properties,effectively reduce the friction surface friction and wear, and show good high temperature antioxidant properties.
Chemical property of Molybdenum Dithiophosphate liquid MoDTP :
Product name: | liquid Molybdenum Dithiophosphate |
Chemical name: | liquid MoDTP |
Color: | brown liquid |
Density (g/cm3 15 ℃) : | 1.0-1.05 |
Kinetic Viscosity (100 ℃
mm2/s ) | 7.0-15.0 |
Flash point (open-cup ℃): | >130 |
Mo % | 8.5-10.0 |
Sulphur % | >9.0 |
Phosphorus % | >3.0 |
Solubility | Easy soluble in mineral oil & synthetic oil |
How is Molybdenum Dithiophosphate liquid MoDTP Produced?
The MODTP synthesis process includes:
Thiophosphating reaction (preparation of dialkyl orthophosphoric acid);
Molybdenum acidification (making molybdenum trioxide dissolve in an insufficient amount of sodium hydroxide and sulfuric acid);
Preparation of thiomolybdate (sodium molybdate and sodium hydride sulfur reaction);
Saponification reaction (reaction of orthophosphoric acid with molybdate or thiomolybdate) and extractive vacuum distillation (extraction of the Emperor reaction product by petroleum ether or hexane with an appropriate boiling point, and then decompression evaporation of hexane).
Applications of Molybdenum Dithiophosphate liquid MoDTP:
As lubricant additives, thiophosphate complexes of various metals endow lubricating oil with anti-wear, anti-friction, anti-oxidation and extreme pressure properties. Four molybdenum dialkyl thiophosphate (MOTP) complexes with alkyl chain lengths ranging from C5 to C10 have been synthesized. They have anti-friction, anti-wear and anti-oxidation properties in mineral oil, base oil and finished oil. The synthesized product has significant resistance to friction, wear and oxidation and is comparable to commercial MODTP.
Molybdenum dithiophosphate (MODTP) is used in internal combustion engine oils, industrial oils, gear oils and greases.
Recommended dosage 0.2-1.0%
Security statement of Molybdenum Dithiophosphate liquid MoDTP :
This product is not classified as dangerous goods, and it can be transported by land, sea or air and stored in dry, clean and ventilated warehouses.
Packaging of Molybdenum Dithiophosphate liquid MoDTP :
Net weight: 25 kg/drum、50 kg/drum and 200 kg/drum.
It can be packed according to the customer’s requirements.
MoDTP, liquid MoDTP, msds, factory, supplier, uses, buy, price
What exactly is Inconel 625 Powder? Powder inonel 625 This material is high in strength and has a very high resistance to corrosion and oxidation. This makes it a good choice for…
What exactly is Inconel 625 Powder?
Powder inonel 625
This material is high in strength and has a very high resistance to corrosion and oxidation. This makes it a good choice for the chemical and aerospace industries. This superalloy exhibits high mechanical strength and hardness even at very low temperatures, around 2000oF/1093oC. It is highly resistant to corrosion and cracking caused by chloride stress. It’s essentially nonmagnetic. Due to its toughness alloy 625 is suitable in degrading chloride. Inconel 625’s excellent corrosion resistance is due to molybdenum/niobium as well as the solid solution containing refractory elements. Inconel 625 has excellent resistance to oxidation thanks to its high levels of nickel and chrome. The non-oxidative corrosive effects of nickel and molybdenum are prevented by the addition of molybdenum or nickel. Moreover, niobium is able to stabilise the alloy during welding to avoid sensitization. Inconel 625 can also be approved for the manufacture of pressure vessels that have a temperature range from 196oC up to 450oC.
Making Inconel 625 powder
Inconel 625 is a good material for welding and forming. The temperature at which it can be heated is 2150oF. It should only be used for low temperature hot work to prevent the growth of grains. Due to the 625’s high elasticity, it is easily hardened. For composite parts, you should use mild annealing techniques. Because of its incomparable welding properties, alloy 625 can be used to join other metals with different compositions. Inconel 625 is a versatile filler metal that can be used for welding different materials. You can weld the 625 alloy by using manual or automated techniques, like GTAW (gas-tungsten arc welding), resistance welding, and gas metal welding.
Inconel 625 Powder Application
Alloy 625 has been primarily designed for steam pipelines. It is also used widely in aero engines as well as pulp and paper machinery. Alloy 625’s main uses include thermal protection, furnace modules and aviation and land-gas turbine engines. Combustion liners, chemical processing plant, and offshore water applications like the jacket for underwater communication cables.
Inconel 625 powder price
Inconel powder particle sizes and purity can impact the price. The purchase volume may also have an effect on the cost. Large quantities of powder will result in a lower price. On our website, you can see the cost of Inconel Powder 625.
Powder from Inconel 625
The Advanc3dmaterials Advanced Material Nano Technology Co. Ltd.
Luoyang City (Henan Province), China. This is a trusted and reliable global supplier of chemical materials and manufacturers. This company is a trusted supplier and manufacturer of high quality chemical materials and nanotechnology products with more than 12 years experience, such as Inconel 625, nitride and graphite powders, sulfide and 3D printing powders. We are happy to help you find high-quality Inconel 625 powder at a reasonable price.
Get in touch
You can also inquire at any time.
Inquiry us
About Germanium Telluride GeTe Powder:Germanium telluride(GeTe) is a compound of germanium and tellurium, which is a component of chalcogenide glass. It has semimetallic conductivity and ferroelectric properties. There are three main types of…
About Germanium Telluride GeTe Powder:
Germanium telluride(GeTe) is a compound of germanium and tellurium, which is a component of chalcogenide glass. It has semimetallic conductivity and ferroelectric properties. There are three main types of germanium telluride crystal: α(rhomboid) and γ(orthogonal) at room temperature and β(cubic, halite) at high temperature. At the ferroelectric Curie temperature of about 670 K, the main phase of pure GeTe is the α phase. Doped germanium telluride is a low-temperature superconductor.
The germanium telluride crystal is a periodic table WTH group element compound semiconductor. Ionic crystals.Trigonometric system face center structure, b. 19G1} lining.Melting point 724 C’.It is a direct bandgap semiconductor with a room temperature forbidden bandwidth of 0.23eV. It is a narrow bandgap semiconductor with a hole mobility of 7×10-3mZilv “S)} degree prepared by melting and recombination method. Used as infrared light emission and detection materials. RBOSCHCO is a trusted global Germanium Telluride GeTe Powder supplier. Feel free to send an inquiry about the latest price of Germanium Telluride at any time.
Product Performance of Germanium Telluride GeTe Powder :
Germanium telluride is a chemical with the chemical formula GeTe. It is quite stable in air, insoluble in dilute acid and potassium cyanide solutions other than water and nitric acid.
Technical Parameter of Germanium Telluride GeTe Powder :
Product Name | MF | Purity | Particle Size | Molecular Weight | Density | Color |
Germanium Telluride | GeTe | 99.99% | -100 mesh | 200.24 | 6.14 g/cm3 | Gray Black |
How is Germanium Telluride GeTe Powder Produced?
The preparation method of germanium telluride consists of the following steps:
(1) Weigh a certain amount of germanium telluride powder into the organic solvent and mix it evenly. The ratio of the mass fraction of germanium telluride powder to the volume fraction of the organic solvent is (2100):(5100). The unit of the mass fraction is Mg and the unit of volume fraction is mL.
(2) Put the evenly mixed solution in Step (1) into the cell crusher for ultrasonic treatment;
(3) The ultrasonic germanium telluride dispersion was centrifuged, and the grayish-black supernatant was taken. The two-dimensional material germanium telluride was dispersed in the supernatant.
Applications of Germanium Telluride GeTe Powder:
Germanium telluride is a thermoelectric material.
Germanium telluride is used in thermoelectric refrigeration.
Germanium telluride is also used in infrared detection equipment and semiconductors.
GeTe is already widely used in non-volatile optical data storage, such as CD, DVD and Blu-ray, and may replace dynamic and flash random access memory. In 1987, Yamada et al. studied the phase transformation properties of GeTe and Sb2Te3 used in optical storage. The shorter crystallization time, circularity and high optical contrast make these materials a better choice than Te81Ge15Sb2S2, which has a slower transition time
The high resistivity contrast between amorphous and crystalline states and the ability to repeatedly reverse transitions make it a good candidate for RF switches. The radiofrequency requires the deposition of a thin layer of GeTe film on the surface of the substrate. Seed layer structure, precursor composition, deposition temperature, pressure, gas flow rate, precursor bubbling temperature and substrate all have an influence on membrane performance.
Storage Condition of Germanium Telluride GeTe Powder :
The damp reunion will affect GeTe powder dispersion performance and using effects, therefore, germanium telluride GeTe powder should be sealed in vacuum packing and stored in the cool and dry room, the germanium telluride can not be exposure to air. In addition, the GeTe powder should be avoided under stress.
Packing & Shipping of Germanium Telluride GeTe Powder :
We have many different kinds of packing which depend on the germanium telluride GeTe powder quantity.
Germanium telluride GeTe powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Germanium telluride GeTe powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
Germanium Telluride Properties |
Other Names | germanium monotelluride, germanium(II) telluride,
germanium(2+) telluride, GeTe powder |
CAS No. | 12025-39-7 |
Compound Formula | GeTe |
Molecular Weight | 200.23 |
Appearance | Gray Black Powder |
Melting Point | 725℃ |
Boiling Point | N/A |
Density | 6.14 g/cm3 |
Solubility in H2O | N/A |
Exact Mass | 203.827 g/mol |
| |
| |
Germanium Telluride Health & Safety Information |
Signal Word | N/A |
Hazard Statements | H302 |
Hazard Codes | Xn |
Risk Codes | R22 |
Safety Statements | N/A |
Transport Information | NONH for all modes of transport |
What is Boron Carbide? Boron carbonide also known as black-diamond, is an organic compound with the formula of B4C. It is usually grey-black in color. It’s one of three most hardy materials,…
What is Boron Carbide?
Boron carbonide also known as black-diamond, is an organic compound with the formula of B4C. It is usually grey-black in color. It’s one of three most hardy materials, after diamond and cubicboron nutride. This is why it is often used in body armor and tank armour. Boron carbide has an Mohs hardness of approximately 9.5. Boron carbide does not react with any acid or alkali solution, so it is insoluble even in organic solvents. Boron carbide is also known for its strong thermal neutron capture and high neutron absorption capabilities, which makes it a neutron absorber.
How is boron carbonide used?
Boron carbide can be used as an artificial rigid material. It is second only to diamond or cubic boron nutride. Boron carbide crystals are hexagonal in structure. 2.52g/cm3. Its melting point is 2450°C. If the temperature rises above 2800°C it will quickly decompose and then volatilize. Boron carbide resists acid and alkali corrosion. It is also not wetted by most molten materials. Boron carbide can withstand air oxidation of 1000 degrees Celsius, however it will oxidize in an oxidizing atmosphere above 900 degrees Celsius. Boron carbide powder can grind to more than 50% the silicon carbide’s grinding capacity. It is also 12 the harder than corundum. Boron carbide powder is a great grinding material that can also be worn-resistant.
The strong chemical stability and resistance to high temperatures, armour-piercing and bullet penetration of boron carbonide make it bulletproof. It is used often as bulletproof ceramic material and bulletproof coatings. You can also use it as an antioxidant. It forms an protective layer of carbonaceous substances, which protects against excessive oxidation, and prolongs the useful life of refractory material.
Why are boron carbide and boring so difficult to make?
Boron carbide can be used to make body armor. It is also a very hard material, second only behind diamond and cubicboron nutride. Boron carbide’s unique crystal structure creates a strong covalent link. Its crystal structure consists mainly of orthorhombic heterohedrons. This crystal structure is responsible for boron carbid’s excellent chemical and physical properties, such as its super hardness, high melting points, low density, low thermal extension coefficient, wear resistance, high melt point, low melting temperature, high melting temperatures, low melting point, and high melting value. Because of this, boron carbonide exhibits high hardness.
Are boron and carbide toxic to our bodies?
Boron carbide has been called synthetic diamond. However, current research shows that it isn’t a health hazard. In order to create anti-neutron radiation fibers for leather, anti-neutron compounds, heavy metal compound, and polypropylene fibres are mixed and spun. It is possible to get threads with a boron content of 35%. The fibre strength can range from 23-27CN/tex. You can use the breaking elongation to create knitted fabrics or nonwoven fabrics. It can also increase neutron radiation protection shielding rates by up to 44%.
Prices for boron carbide
Many factors affect the price of boron powder. The market price of boron carbide powder is changing rapidly at the moment. You can contact us anytime if you require it.
Boron carbide powder suppliers
Advanc3dmaterials (aka. With 12 years experience, Advanc3dmaterials advanced materials Nano Technology Co. Ltd. has been a trusted global supplier and manufacturer of high-quality chemical products and manufacturing processes. A number of powder materials have been developed by our company. You can also order OEM. Please call us , or click the required products to send an inquiry.
Inquiry us
About Lithium Nitride Li3N Powder:Li3N compound name is lithium nitride. Lithium nitride is a fast ionic conductor, and its conductivity is higher than other inorganic lithium salts. Many studies have focused on the application…
About Lithium Nitride Li3N Powder:
Li3N compound name is lithium nitride. Lithium nitride is a fast ionic conductor, and its conductivity is higher than other inorganic lithium salts. Many studies have focused on the application of lithium nitride as a solid electrode and cathode material for batteries. What is the correct name for Li3N? Lithium nitride is the correct name for Li3N, which means that the lithium nitride formula is Li3N.
As a fast ion conductor material, it should have a higher decomposition voltage, lower electronic conductivity, higher ionic conductivity, and better chemical stability. Does lithium nitride burn in the air? Lithium is unique in the Group because it also reacts with the nitrogen in the air to form lithium nitride. Lithium burns with a strongly red-tinged flame if heated in the air. For the record, it also reacts with the nitrogen in the air to give lithium nitride. Many lithium fast-ion conductors have the above characteristics and can be used to manufacture all-solid-state batteries with excellent performance, as the power source for calculators, camera flashes, electronic watches, and more and more electronic equipment and electronic products; it can also be used to manufacture special Ion equipment.
What type of bond is lithium nitride? Ionic bond: This is how the ionic bond forms in Lithium Nitride (Li3N). Is Li3N ionic or covalent? Lithium nitride is an ionic compound. The electronegativity of Li is 0.98 and nitrogen is 3.04. People have imagined using lithium fast ion conductor materials to build large energy storage (electric) energy reactors. When the peak hours of electricity consumption in big cities are late at night, the excess electricity can be changed into energy storage stations. During the peak period of power consumption, continuously supply power to the grid. Because of the broad application prospects of lithium fixed ion conductors, people have aroused great interest. In order to find better lithium fixed ion conductors, people have conducted extensive and in-depth research work. Tqhp is a trusted global Lithium Nitride Li3N Powder supplier. Feel free to send an inquiry about the latest price of Lithium Nitride at any time.
How is Lithium Nitride Li3N Powder Produced?
Lithium nitride was first discovered at the end of the 19th century and can be easily prepared by a combination of elements. In 1935, Zintl and Brauer first determined the hexagonal structure of lithium nitride crystals. 2 is the charge of lithium nitride. In 1976, Rabenau and Schultz used single-crystal X-ray diffraction (XRD) to redefine this structure.
The research on the reaction between lithium nitride and hydrogen began in the early 20th century. Dafert and Miklauz discovered that lithium nitride and hydrogen react at 220-250°C to form a substance with a composition of “Li3NH4”. They continue to heat the substance and decompose it into “Li3NH2” components in higher temperature (> 700°C) substances and hydrogen. Later, they, together with Ruff and Georges, discovered that the “Li3NH4” was Li2NH + LiH, and the “Li3NH2” was LiNH2 + 2 LiH.
Today, lithium nitride has been used in many fields. The ion polarization model can reasonably explain the catalytic effect of Li3N under normal pressure and high temperature and its role as nitrogen source in the solvothermal method.
Li3N prepared by reacting lithium metal with N2 at 500°C is a good catalyst for the synthesis of cBN at high temperature and high pressure. It can also catalyze the formation of hBN under normal pressure and high temperature and can be used as a solvothermal method to synthesize hBN with cBN nitrogen source.
Applications of Lithium Nitride Li3N Powder:
Lithium Nitride is a brownish-red, lump-shaped solid or a sand-like powder. It is used as a reducing agent. What is lithium nitride used for? Lithium nitride can be applied in different fields:
1. Solid electrolyte
Lithium nitride is a fast ionic conductor, and its conductivity is higher than other inorganic lithium salts. Many studies have focused on the application of lithium nitride as a solid electrode and cathode material for batteries.
As a fast ion conductor material, it should have higher decomposition voltage, lower electronic conductivity, higher ionic conductivity, and better chemical stability. Many lithium fast-ion conductors have the above characteristics and can be used to manufacture all-solid-state batteries with excellent performance, as the power source for calculators, camera flashes, electronic watches, and more and more electronic equipment and electronic products; it can also be used to manufacture special Ion equipment.
People once imagined using lithium fast ion conductor materials to build large energy storage (electric) energy reactors. When the peak hours of electricity consumption in big cities are late at night, the excess electricity can be changed into energy storage stations. During the peak period of electricity consumption, power is continuously supplied to the grid. Because of the broad application prospects of lithium fixed ion conductors, people have aroused great interest. In order to find better lithium fixed ion conductors, people have conducted extensive and in-depth research.
2. Preparation of cubic boron nitride
In addition to being used as a solid electrolyte, lithium nitride is also an effective catalyst for converting hexagonal boron nitride into cubic boron nitride.
In 1987, Japanese scholars obtained an N-type cBN single crystal with a diameter of 2 mm and an irregular shape by seeding Si under ultra-high pressure and high-temperature conditions, and then grew a Be-doped P-type single crystal on it. Through the secondary high-pressure cBN single crystal on the crystal surface, the cBN uniform PN junction is finally obtained by cutting and grinding.
China has similar synthesis experiments. The experiment was done on the domestic DS-029B six-sided top press. In order to study the effect of catalysts/additives on the shape of cBN samples synthesized under high pressure, this experiment used self-made lithium nitride Li3N and lithium hydride LiH as catalysts, and used hBN with a purity of 99% as starting materials. , And a commercially available 99% purity lithium amide LiNH2 additive.
In addition to the above experiments, on the basis of the traditional phase change method, cubic boron nitride was synthesized by adding different additives with lithium nitride as a catalyst and hexagonal boron nitride as raw materials. With the aid of X-ray diffraction technology, Raman diffraction technology, etc. to analyze and characterize the experimental products, it can be concluded that different additives have different effects on the system.
3. Electron injection layer of the organic light-emitting device
Organic light-emitting devices (OLED) have all-solid-state, active light emission, wide viewing angle, fast response (<1μs), wide operating temperature range (-45℃-+85℃), and flexible substrates can be manufactured. The advantages of high power consumption and low unit power consumption have been regarded by the industry as one of the next-generation mainstream display and lighting technologies. The application of various new organic semiconductor materials and new organic device structures has made significant progress in OLED performance and industrialization.
Lithium nitride (Li3N) is used as an n-type dopant in the three (8-hydroxyquinoline) aluminum (Alq3) layer of electron transport material to improve the performance of OLED devices. Li 3 N has been reported as an electron injection layer and cathode. A buffer layer in between can improve the performance of the present invention. During the evaporation process, Li3N decomposes into Li and N2. Only Li can be deposited on the device, and N2 has no adverse effect on device performance. Experiments show that the Alq3 layer doped with Li3N can be used as an electron injection layer to effectively improve the efficiency of the OLED and reduce the operating voltage of the device.
Product Performance of Lithium Nitride Li3N Powder:
Our lithium nitride powder is with high purity, ultrafine particle size, bigger surface area.
Technical Data of Lithium Nitride Li3N Powder:
Part Name | High Purity Lithium Nitride Powder |
MF | Li3N |
Purity | 99.99% |
Particle Size | -100 mesh |
Application | Used as a catalyst or reaction raw material in organic synthesis; |
Specification of Lithium Nitride Li3N Powder:
Packing & Shipping of Lithium Nitride Li3N Powder :
We have many different kinds of packing which depend on the lithium nitride Li3N powder quantity.
Lithium nitride Li3N powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Lithium nitride Li3N powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
Lithium Nitride Properties |
Other Names | trilithium nitride, trilithium azanide, Li3N powder |
CAS No. | 26134-62-3 |
Compound Formula | Li3N |
Molecular Weight | 36.8456 |
Appearance | Purple or Red Powder |
Melting Point | N/A |
Boiling Point | N/A |
Density | 1.3 g/cm3 |
Solubility in H2O | N/A |
Exact Mass | 37.0667 |
| |
| |
Lithium Nitride Health & Safety Information |
Signal Word | Danger |
Hazard Statements | H260-H314 |
Hazard Codes | F, C |
Risk Codes | 11-14-29-34 |
Safety Statements | 16-22-26-27-36/37/39-45 |
Transport Information | UN 2806 4.3/PG 1 |
Is there a nanobismuth oxide? Nanometer bismuth oxide Also known as Bismuth Trioxide, a compound that has an organic molecular structure of Bi2O3, is one of the most significant compounds in bismuth….
Is there a nanobismuth oxide?
Nanometer bismuth oxide
Also known as Bismuth Trioxide, a compound that has an organic molecular structure of Bi2O3, is one of the most significant compounds in bismuth. While bismuth can be extracted from natural bismuth blossom (a mineral), it is most often derived from the by-products of copper smelting, lead smelting, or direct combustion of bismuth.
Nanometer Bismuth Oxide photoelectric materials
Bismuth oxide-based glasses have excellent optical properties. They include high refractive indices, infrared transmittance and nonlinear optics. This glass can be used to make photoelectric devices or optical fibre transmission. One of the most important applications of bismuthoxide as an additve is in this category. This glass, Bi2O3-32.6B2O3-1Si2O3, has a reaction speed of 150fs. It is widely applicable for optical switching as well as broadband amplification. Bismuth-based glasses added with caesium, such as 63.3Bi2O3-32.6B2O3-41Si2O3-0.24CeO2, have more excellent performance. Bismuth oxide is 92% of glass weight and has a content of 63.3%. Taiwan National University scientists uniformly dispersed bismuth oxide and titanium dioxide particles (particles are about 10nm in size) in polyacrylate. Sol-gel materials have high optical dispersion, thermal stability and are easy to use. It can have a refractive Index of 1.614-1.694. PbBiGa dioxide glass is a nonlinear and excellent transmitting optical material in the far infrared spectrum. It’s a perfect photoelectric device, as well as an optical fibre transmission material, in the infrared.
You can use nanometer bismuth dioxide as a catalyst
Three types can be used to apply bismuth dioxide in catalysts: The molybdenum bismuth catalyst, which includes the bismuth-molybdenum titan mixed oxide (prepared by sol-gel), has a specific area of 32-67m2/g. This is an economical and efficient catalyst material for the oxygenation reaction. The industrial uses of bismuth oxide include the ability to convert propylene into acrolein and to prepare acrylonitrile using propylene; it also acts as a catalyst for the oxidation and dehydrogenation furan, butadiene, and other processes. It can also be used as a catalyst in the oxidation of methane, ethane, and ethylene. BY25, bismuthoxide doped 25% with yttrium dioxide, is the most efficient catalyst currently available for methane-oxidation coupling reaction. It can also be recycled up to 18x.
Pricing of nanometer bismuth oxide
Nanometer bismuthoxide particle sizes and purity have an effect on its price. The purchase volume may also impact the cost. Large quantities of high-quality bismuth oxide are more expensive. On our website, you can see the Price of Nanometer Bismuth Oxide.
Nanometer bismuth oxide supplier
The Advanc3dmaterials Advanced Material Nano Technology Co. Ltd.
Luoyang City (Henan Province), China. This is a trusted and reliable global supplier of chemical materials. This company is a trusted supplier and manufacturer of high quality chemical materials and nanotechnology products with more than 12 year experience, such as Nanometer Bismuth Oxide, Nitride Powder, graphite Powder, and Sulfide Powder. We are happy to help you find high-quality, cost-effective Nanometer Bismuth Oxide.
Get in touch
You can also inquire at any time.
Inquiry us
How does Aluminum Nitride play a role in the world? The main applications aluminum nitride Powder: Thermal conductive filler, for thermal conductive paste or thermal conductive grease. The aluminum nitride has many…
How does Aluminum Nitride play a role in the world?
The main applications
aluminum nitride
Powder: Thermal conductive filler, for thermal conductive paste or thermal conductive grease. The aluminum nitride has many uses in photoelectric technology, such as in the optical storage interface, which can serve as an electron substrate, electric induction layer, and wafer carrier. Because of its piezoelectric effects, epitaxial extensions of aluminum nitride crystallines are also useful in detecting surface acoustic signals. On a silicon wafer, the detector is placed. This thin film can be produced only in a few locations. High room temperatures, high temperature strength and low thermal conductivity make aluminum nitride clays ideal for high-temperature structures of heat exchanger materials. Use aluminum ceramics or their dissolution properties as casting materials can be made of Al, Cu Ag, Pb, and other metals.
What are the characteristics of aluminum nitride
AlN It can stabilize up to 2,200. It is sensitive to room temperatures and has a high intensity. However, the intensity drops slowly as temperature increases. Good heat resistance materials have a high thermal conductivity. They also have a very low thermal expansion coefficient. The molten steel is a great crucible for making pure aluminum or an alloy of aluminum. It has a low rate of molten metallic erosion. Aluminium nitride can also be used to make an electrical component. Aluminum nitride protects gallium arsenide from ion injections during annealing by coating it with aluminum nitride. The aluminum nitride also acts as a catalyst for the conversion of hexagonal to cubic boron nutride. Slow reaction at room temperature with water. You can make this from aluminum powder at 800 to 1000 in nitrogen or ammonia atmosphere. It’s white-to-gray-blue in color. You can make it from aluminum powder at 800 to 1000 in ammonia or nitrogen atmosphere. It is then distilled into a gray-white powder using the Al2O3–C-N2 process, which takes place between 1600 and 1750. Aluminum chloride, ammonia can be produced by gas phase reaction. Vapor deposition can be used to synthesize the coating with the AlCl3/NH3 system.
Aluminum Nitride prices
There are many factors that affect the price of aluminum nitrate purity. There is dynamic movement in the market price for Aluminium Nitride. We are available to assist you at all times.
Aluminum Nitride supplier
Advanc3dmaterials (aka. With 12 years experience, Advanc3dmaterials (aka. The company currently has a number of powder materials. You can also order OEM. Aluminum Nitride is available for purchase.
Get in touch
To send an enquiry, click the appropriate products.
Inquiry us