Tag: high

Metal Alloy 99.95% High Purity Tungsten Wire Filament

About Metal Alloy 99.95% High Purity Tungsten Wire Filament:

Properties:

high melting point, high-density, high temperature oxidation resistance, long service life, resistance to corrosion.

Applications:

mainly used for making heating wires, twisted wires for coating films under vacuum, also used as electrical light sources parts, also produced as components for manufacturing of guns, artillery, rockets, satellites, aircrafts and ships.


Following is the normal tungsten wire dimension form. For any special needs, please feel free to contact us.
Metal Alloy 99.95% High Purity Tungsten Wire Filament插图

Metal Alloy 99.95% High Purity Tungsten Wire Filament Properties

Other NamesTungsten Wire
CAS No.N/A
Compound FormulaW
Molecular WeightN/A
Appearancewire
Melting PointN/A
Solubility in waterN/A
Density>=19.2g/cm3
Purity>=99.95%
Sizecustomized
Boling pointN/A
Specific HeatN/A
Thermal ConductivityN/A
Thermal ExpansionN/A
Young’s ModulusN/A
Exact MassN/A
Monoisotopic MassN/A
  
  

Metal Alloy 99.95% High Purity Tungsten Wire Filament Health & Safety Information

Safety WarningN/A
Hazard StatementsN/A
Flashing pointN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
RTECS NumberN/A
Transport InformationN/A
WGK GermanyN/A
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About Metal Alloy 99.95% High Purity Tungsten Wire Filament:Properties: high melting point, high-density, high temperature oxidation resistance, long service life, resistance to corrosion.Applications:mainly used for making […]

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Zirconium Carbide – High Hardness And Excellent High Temperature Refractory Material

What are the properties of zirconium caride? The zirconium carbonide dust is gray-black. It has a NaCI-type cubic, face-centered structure and the lattice consistency is 0.4685nm. Zirconium carbide is electrically conductive, conductive, paramagnetic. ZrC powder is also known for its high melting point and hardness. Zirconium caride can be insoluble or soluble with water. It is also soluble and stable in HF, HNO3, and forms a solution with TiC. The temperature at which the oxidation reactions begin is 300°C. Zirconium carbonide ceramic is an extremely hard material that exhibits good chemical stability. It also has good resistance to high temperatures, corrosion resistance and wear resistance. It’s a great high temperature structural material, surface protection material, and super-hard tool material. Because it is thermally conductive, its potential applications include cutting tool materials, armor material, hardfacing electrodes, and other hardfacing materials.

Where is zirconium carbonide applied?

Zirconium-carbide used in cemented caride Zirconium carbide is an important, high-temperature structural metal with high melting points and high strength. This material has many applications in cemented carbide due to its excellent properties. Zirconium carbonide for ceramic composite materials The strengthening phase zirconium carbonide is used to prevent dislocation movement or stabilise grain boundaries. Also, it limits the slip or climbing movable dislocations. This material has many potential applications. Zirconium Caride is used in high-temperature coating Zirconium carbid has an extremely high melting point, and it forms dense oxide layers on the surface at very high temperatures. This can reduce the diffusion rate for oxygen into the matrix, and thus can be used as thermal insulation and high-temperature coating. Zirconium carbonide is used for nuclear materials-barrier material to cover nuclear fuel particle SiC coated fuel particles are commonly used in high-temperature gascooled reactors. In the atomic industry SiC is thermally decomposed at 1700. A phase transition between SiC and SiC will take place and it will quickly lose its mechanical properties. Zirconium cadmium for functional materials Zirconium carbid has both the ability to absorb visible light efficiently and reflect infrared. By absorbing 95% sunlight below 2m in short-wavelength energy, this material can store the energy through thermal transformation. It also has the property of reflecting infrared wavelengths beyond 2m. Tungstenmolybdenummetals advanced materials Tech Co., Ltd (Tungstenmolybdenummetals ), a zirconium carbide expert with over 12 year experience in developing and researching chemical products, is now incorporated. We can help you find high-quality zirconium carbide.
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What are the properties of zirconium caride? The zirconium carbonide dust is gray-black. It has a NaCI-type cubic, face-centered structure and the lattice consistency is […]

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Indium Oxide In2O3 Powder CAS 1312-43-2

About Indium Oxide In2O3 Powder:
Indium oxide is an amphoteric oxide of indium, and the molecular formula is 2O3. The pure product is a white or light yellow amorphous powder, which is heated to reddish-brown. Indium oxide is a new n-type transparent semiconductor functional material having width disabled bandwidth, smaller resistivity and higher catalytic activity, and has been widely used in optical fields, gas sensors, and catalysts. In addition to the above functions, there is also an indium oxide particle size, surface effect, quantum dimensional effect, small dimensional effect, macroscopic quantum tunnel effect.
Indium oxide is presented in hydrogen or another reducing agent, heated to 400 to 500 ° C, reduced metal indium or low-cost oxide. The low-level oxide is separated at high temperatures. Further, at a high temperature, it can react with metal indium solubilized in acid, but the more difficult it is, and the moisture absorption also disappears. When hydrogen is reduced by heating through hydrogen, metal indium is produced.
Indium oxide is insoluble in water but can be dissolved in acid, while crystalline oxides are not soluble in water. The crystals are divided into two phases, cubic (diamond type) and diamond (corundum). The bandgap between the two phases is 3eV. The parameter of the cubic phase is listed in the information box. A rhombic phase is produced at high temperatures and is produced using a non-balanced growth method. Its spatial group R3C No. 167, Piersson symbol HR30, A = 0.5487 nm, b = 0.5487 nm, C = 0.57818 nm, z = 6, the calculation density is 7.31 g / cm3.
Indium mixed indium film (IN2-XCRXO3) is a magnetic semiconductor, a single-phase crystal structure, and a high carrier concentration semiconductor behavior having high-temperature ferromagnetic properties. As the material of the rotating syringe, it can be in the spinning electronics.
Indium oxide polycrystalline films doped with Zn have high conductivity (conductivity to 105 S / m), even with higher superconductivity at temperatures in helium. The superconducting transition temperature Tc is related to the doping and the film structure, less than 3.3k. Feel free to send an inquiry to get the latest price if you would like to buy Indium Oxide In2O3 Powder in bulk.

Performance of Indium Oxide In2O3 Powder:

In the presence of hydrogen or other reducing agents, heating to 400 ~ 500 ℃ can be reduced to metal indium or low-cost indium oxide.
Decomposes to lower oxides at high temperatures. In addition, it can react with metal indium at high temperature. Although In2O3 generated by low-temperature burning is easily soluble in acid, the more complete the high-temperature treatment is, the more difficult it is to dissolve, and the hygroscopicity also disappears. When indium trioxide is reduced with hydrogen under red heat, metal indium is generated.

Technical Parameter of Indium Oxide In2O3 Powder:

ITEMSPECIFICATIONSTEST RESULTS
AppearanceLight Yellowish PowderLight Yellowish Powder
In2O3(%,Min)99.9999.995
Impurities(%,Max)
Cu 0.8
Pb 2.0
Zn 0.5
Cd 1.0
Fe 3.0
Tl 1.0
Sn 3.0
As 0.3
Al 0.5
Mg 0.5
Ti 1.0
Sb 0.1
Co 0.1
K 0.3
 Other Index
Particle Size(D50) 3-5μm


How is Indium Oxide In2O3 Powder produced?
1. The high-purity metal indium is burned in the air or indium carbonate is calcined to produce In2O, Ino and In2O3, and the high-purity In2O3 can be obtained by finely controlling the reduction conditions. The indium trioxide ceramic powder with an average particle size of 20nm can also be prepared by the spray combustion process.
2. When indium hydroxide is burned to prepare indium trioxide, if the temperature is too high, In2O3 has the possibility of thermal decomposition; if the temperature is too low, it is difficult to complete dehydration, and the oxide generated has hygroscopic property. Therefore, heating temperature and time are important factors. In addition, because In2O3 is easily reduced, it must always be kept in an oxidizing atmosphere.
3. Indium hydroxide is burned in the air at 850℃ to a constant weight to generate In2O3, and then heated in the air at 1000℃ for 30min. Other indium nitrates, indium carbonate, and indium sulfate can also be burned in the air to make indium trioxide.
 
Applications of Indium Oxide In2O3 Powder:
In recent years, indium oxide has been used in high-tech fields and military fields, such as photovoltaic industries, particularly processed into indium tin oxide (ITO) targets, manufacturing transparent electrodes and transparent heat reflector materials.
Used to produce a planar liquid crystal display and inverter.
Indium oxide is used as materials such as spectral purity reagents and electronic components.
Indium oxide is used in a protective coating of a metal mirror surface, and a photovoltaic display semiconductor film is also used to produce indium salts and glass.
Indium oxide is a raw material commonly used in the resistance touch screen, mainly used in fluorescent screens, glass, ceramics, chemical reagents, and the like.
For non-ferrous metal glass, ceramics, alkaline manganese batteries, indium oxide series Liu, chemical reagents, and other traditional fields of Colorado.
Oxides are used in certain types of batteries, thin-film infrared reflectors (high mirrors), some optical coatings and some antistatic coatings for visible light transparency.
Indium oxide and tin oxide form indium tin oxide (also referred to as blend indium oxide or ITO), and a material transparent conductive coating.
In the semiconductor, indium oxide can be used as an N-type semiconductor of the resistance element in the integrated circuit.
In histological learning, indium oxide is used as part of certain dyeing formulations.


Storage Condition of Indium Oxide In2O3 Powder:
Indium Oxide In2O3 Powder should be stored in dry, cool and sealing of the environment, can not be exposure to air, in addition, should avoid the heavy pressure, according to ordinary goods transportation.

Packing & Shipping of Indium Oxide In2O3 Powder:
It is packed in double plastic bags inside, which can be filled with argon in a vacuum; it can be vacuumed and filled with argon for protection.
Indium Oxide In2O3 Powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
Indium Oxide In2O3 Powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
Indium Oxide In2O3 Powder CAS 1312-43-2插图

Indium Oxide In2O3 Powder Properties

Other NamesIndium Oxide, Indium(3+) oxide, India, Indium trioxide, Indium sesquioxide,
Oxo-oxoindianyloxyindigane, Indium(3+); oxygen(2-), Diindium trioxide.
CAS No.1312-43-2
Compound FormulaIn2O3
Molecular Weight277.64
AppearanceYellow Powder
Melting Point1,910° C (3,470° F)
Solubility in waterN/A
Density7.18 g/cm3
Purity99.90%
Particle Sizegranule, –
Boling pointN/A
Specific HeatN/A
Thermal ConductivityN/A
Thermal ExpansionN/A
Young’s ModulusN/A
Exact Mass277.793 g/mol
Monoisotopic Mass277.793 Da
  
  

Indium Oxide In2O3 Powder Health & Safety Information

Safety WarningN/A
Hazard StatementsN/A
Flashing pointN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
RTECS NumberNL1770000
Transport Informationn
WGK Germany3
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About Indium Oxide In2O3 Powder:Indium oxide is an amphoteric oxide of indium, and the molecular formula is 2O3. The pure product is a white or […]

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Lithium stearate is used as a high-temperature lubricant.

What exactly is lithium-stearate? It’s also known by the name lithium octadecate. This white powdery compound is stable at low temperatures and high pressure. Water and ethanol are slightly more solubiles than stearate. Ethanol solubility in water is 0.04g/100ml. Stearic acid and the related lithium salts are formed from strong acids. They are insoluble when dissolved in mineral oil, ethyl alcohol and mineral oil. In mineral oil they can form colloids.
Specifications of lithium Stearate
1.There is no need for solid additives.
2. Extreme pressure resistance and high bearing capacities can help reduce wear over the long term.
3. High oxidation stability, resistance to rust, water and low temperature fluidity.
4. It can have a longer service life than other products of similar temperature.

The preparation method for lithium-stearate
10g of stearic Acid was dispersed in 100mL 95%ethanol. Next, it was titrated in 0.5mol/L lithium hydroxylide ethanol solution. (If lithium hydroxide isn’t completely soluble in the ethanol, you can add water to make it so). Phenolphthalein was used to indicate. Once the reaction had reached an equivalent level, the precipitated sodium stearate soot was removed and filtered. You can make a purified product by adding 95% of ethanol to the crude product.
As a high temperature lubricant, lithium stearate can be used.
This grease can be used for multipurpose purposes, including equipment operating at high temperatures, medium speed and heavy loads.
Other uses of lithium-stearate
You can use lithium stearate as a heat stabilizer to protect transparent products. This product has excellent transparency and doesn’t leave behind a white cloud when combined with a plasticizer made from phthalic acid. Lithium Stearate has a lower melting point than most other stearates. It also melts easily in ketones so that it is less affected by the embodying process. The non-toxic alternative to barium soap or lead soap is lithium stearate. The phosphatidic acid polymerizers can be mixed with lithium stearate. You can use lithium stearate as an external oil lubricant for nylon, hard polyvinylchide, and phenolic resin (maximum dose 0.6). Additionally, lithium stearate has the ability to be used for anti-seepage and waterproof constructions.
Lithium stearate price
Many factors affect the market prices of lithium-stearate powder. The market price of lithium stearate powder is changing rapidly at the moment. You can contact us anytime if you require it.
Supplier of lithium stearate
Advanc3dmaterials (aka. With over 12 years’ experience, Advanc3dmaterials is an established global supplier of high-quality chemical materials and Nanomaterials. Presently, we have developed several materials. We produce high quality lithium stearate with fine particles and very low levels of impurities. To get the current price for, send us an email.


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What exactly is lithium-stearate? It’s also known by the name lithium octadecate. This white powdery compound is stable at low temperatures and high pressure. Water […]

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Metal Alloy High Purity Tungsten Wires High Temperature Heater Wire

About Metal Alloy High Purity Tungsten Wires High Temperature Heater Wire:

Properties:

high melting point, high-density, high temperature oxidation resistance, long service life, resistance to corrosion.

Applications:

mainly used for making heating wires, twisted wires for coating films under vacuum, also used as electrical light sources parts, also produced as components for manufacturing of guns, artillery, rockets, satellites, aircrafts and ships.


Following is the normal tungsten wire dimension form. For any special needs, please feel free to contact us.
Metal Alloy High Purity Tungsten Wires High Temperature Heater Wire插图

Metal Alloy High Purity Tungsten Wires High Temperature Heater Wire Properties

Other NamesTungsten Wire
CAS No.N/A
Compound FormulaW
Molecular WeightN/A
Appearancewire
Melting PointN/A
Solubility in waterN/A
Density>=19.2g/cm3
Purity>=99.95%
Sizecustomized
Boling pointN/A
Specific HeatN/A
Thermal ConductivityN/A
Thermal ExpansionN/A
Young’s ModulusN/A
Exact MassN/A
Monoisotopic MassN/A
  
  

Metal Alloy High Purity Tungsten Wires High Temperature Heater Wire Health & Safety Information

Safety WarningN/A
Hazard StatementsN/A
Flashing pointN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
RTECS NumberN/A
Transport InformationN/A
WGK GermanyN/A
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About Metal Alloy High Purity Tungsten Wires High Temperature Heater Wire:Properties: high melting point, high-density, high temperature oxidation resistance, long service life, resistance to corrosion.Applications:mainly used […]

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Metal Alloy Custom Size 10.1g/Cm3 High Purity Molybdenum Rods Molybdenum Bars

About Metal Alloy Custom Size 10.1g/Cm3 High Purity Molybdenum Rods:


Properties: High melting point, good thermal conductivity; 

Applications: 

1. Used for manufacturing electric vacuum devices and electric light source parts.  

2. Suitable for processing ion injection parts.  

Used as high temperature heating element and high temperature structural parts.  

3. Used as furnace electrode in glass and refractory fiber industry, with long service life working in 1300℃ glass melt. 

4. Used as electrode in rare earth industry.  

Following is the normal molybdenum rod dimension form,  for any special dimension, please feel free to contacr us and send an enquiry.
Metal Alloy Custom Size 10.1g/Cm3 High Purity Molybdenum Rods Molybdenum Bars插图

Metal Alloy Custom Size 10.1g/Cm3 High Purity Molybdenum Rods Properties

Other NamesMolybdenum rod, Molybdenum bar
CAS No.N/A
Compound FormulaMo
Molecular WeightN/A
Appearancerod, bar
Melting PointN/A
Solubility in waterN/A
Density10.1g/cm3
Purity99.95%
Sizecustomized
Boling pointN/A
Specific HeatN/A
Thermal ConductivityN/A
Thermal ExpansionN/A
Young’s ModulusN/A
Exact MassN/A
Monoisotopic MassN/A
  
  

Metal Alloy Custom Size 10.1g/Cm3 High Purity Molybdenum Rods Health & Safety Information

Safety WarningN/A
Hazard StatementsN/A
Flashing pointN/A
Hazard CodesN/A
Risk CodesN/A
Safety StatementsN/A
RTECS NumberN/A
Transport InformationN/A
WGK GermanyN/A
Inquiry us

About Metal Alloy Custom Size 10.1g/Cm3 High Purity Molybdenum Rods:Properties: High melting point, good thermal conductivity; Applications: 1. Used for manufacturing electric vacuum devices and electric light […]

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Titanium Silicate-the Most Ideal Conductive Film Today

What exactly is Titanium Silicide Due to the shrinkage of device sizes, metal silicides, also known as metal electrodes, are used extensively in source drain/gate of metal oxide silicon field effect transistors. (M0SFET). TiSi2 This titanium silicide, (TiSi2 ) has many advantages. They can be used widely in microelectronics and aviation high-temperature resistive materials.

Preparation for Titanium Silicate

High temperature stability and a quick forming process are two of the benefits that titanium silicate offers. Two methods can generally be used to make titanium silicate. Two methods can produce titanium silicate.

Uses of Titanium Silicate

As mentioned above, titanium silicate has excellent properties: high electrical conductivity, high selectivity, good thermal stability, good absorption to Si, good process adaptability and low interference to silicon connection parameters.Therefore, titanium silicate is widely used in gate, source/drain, interconnection and ohmic contact manufacturing of metal oxide semiconductor (MOS), metal oxide semiconductor field effect transistor (MOSFET) and dynamic random access memory (DRAM) in integrated circuit devices.

Tungstenmolybdenummetals (aka. Tungstenmolybdenummetals is an advanced material. Trusted global supplier of chemical material and manufacturer, with more than 12 years’ experience in manufacturing super-high quality chemicals and nanomaterials. We produce titanium silicate with high purity, small particles size, and low impurity. We can help you if the price is lower.
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What exactly is Titanium Silicide Due to the shrinkage of device sizes, metal silicides, also known as metal electrodes, are used extensively in source drain/gate […]

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