Antimony Selenide Sb2Se3 Powder CAS 1315-05-5

About Antimony Selenide Sb2Se3 Powder:
Antimony triselenide is a compound with the chemical formula Sb2Se3. The substance exists in the form of the sulfide mineral antimony pyroxene and presents an orthotic space group. In this compound, the oxidation state of antimony form is +3, and that of selenium form is −2. The bonding of this compound has the properties of covalent bonds, which can be demonstrated by the blackness and the semiconductor properties of this and related materials with a low-frequency permittivity (ε0) of 133 along the C-axis at room temperature and an abnormally large bandgap of 1.18 eV at room temperature. Antimony triselenide can be formed by the reaction of antimony with selenium at a melting point of 885 K.
Antimony selenide (Sb2Se3) is a binary monophase compound with large raw material reserves, low toxicity and low price. At the same time, the bandgap is suitable (~ 1.15eV), and the light absorption coefficient is large (>;105 cm-1), the long crystal temperature is low, which is very suitable for the production of new low-cost and low toxicity thin-film solar cells, and the theoretical photoelectric conversion efficiency can reach more than 30%. Tungstenmolybdenummetals is a trusted global Antimony Selenide Sb2Se3 Powder supplier. Feel free to send an inquiry about the latest price of Antimony Selenide at any time.

Properties of Antimony Selenide Sb2Se3 Powder :
Antimony selenide is a chemical substance with the chemical formula Sb2Se3 and a molecular weight of 480.38.
99.99% antimony triselenide powder; Sb2Se3 antimony selenide powder
 

Specification of Antimony Selenide Sb2Se3 Powder : 
Antimony Selenide MFSb2Se3
Antimony Selenide ColorBlack, dark red
Antimony Selenide Weight480.38
Antimony Selenide Melting point611℃
Antimony Selenide CAS No.1315-05-5
Antimony Selenide EINECS No.215-256-0
Antimony Selenide Density5.843 g/cm3


Technical Parameter of Antimony Selenide Sb2Se3 Powder :
 

COA of Antimony Selenide
Purity99.99%
Cu≤5ppm
Ni≤5ppm
Zn≤10ppm
In≤5ppm
Ca≤5ppm
Fe≤10ppm
Cr≤3ppm
Co≤5ppm
Na≤5ppm


 How is Antimony Selenide Sb2Se3 Powder Produced?
The invention discloses a method for preparing antimony selenide film, the method is:
(1) The antimony selenide film was prepared by RF magnetron sputtering process on the substrate of the film to be prepared: Ar gas was selected as the sputtering gas, antimony selenide ceramic target was used as the target material, the sputtering power density was set at 0.6~5W/cm2 and the sputtering pressure was set at 0.2~10Pa.
(2) Online selenium compensation is carried out during the preparation of antimony selenide thin film by sputtering. The online selenium compensation is that the solid selenium source is evaporated by the thermal evaporation process while sputtering. The selenium source is high purity selenium particles or selenium powder.
 
Applications of Antimony Selenide Sb2Se3 Powder:
Sb2Se3 is currently being actively explored for use in thin-film solar cells. It was reported that the conversion efficiency of light to electricity reached 9.2 percent.
Sb2se3 is mainly used in metallurgy, industry, chemical industry and other industries.
Sb2Se3 can be used in alloys as a compound or additive.
Sb2se3 can also be used as a catalyst for organic chemical reactions.

Storage Condition of Antimony Selenide Sb2Se3 Powder :
Antimony Selenide should be sealed in vacuum and stored in cool and dry room and it should not be exposure to air. In addition, the product should be avoided under stress.

Packing & Shipping of Antimony Selenide Sb2Se3 Powder :
Antimony Selenide packing: vacuum packing, 1kg/bag, 25kg/barrel, or as your request.
Antimony Selenide shipping: could be shipped out by sea , by air, by express as soon as possible once payment receipt.
Antimony Selenide Sb2Se3 Powder CAS 1315-05-5插图


 

Antimony Selenide Properties

Other NamesAntimony(III) selenide, diantimony triselenide,
antimony triselenide, Sb2Se3 powder
CAS No.1315-05-5
Compound FormulaSb2Se3
Molecular Weight480.4
AppearanceGray Black Powder
Melting Point611 ℃
Boiling PointN/A
Density5.81 g/cm3
Solubility in H2ON/A
Exact Mass481.557201
  
  

Antimony Selenide Health & Safety Information

Signal WordDanger
Hazard StatementsH301-H311-H315-H319-H331-H335
Hazard CodesT
Risk Codes26-36/37/39-45
Safety Statements26-36/37/39-45
Transport InformationUN 1549 6.1/PG 3
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About Antimony Selenide Sb2Se3 Powder:Antimony triselenide is a compound with the chemical formula Sb2Se3. The substance exists in the form of the sulfide mineral antimony […]

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How is Tungsten Carbide Powder Produced?

WC powder is produced through the direct carburization of tungsten powder. Various processes are used to produce ultra-fine WC powders. The particle size of the WC particles determines the size of the WC powder.

Traditionally, the hydrogen reduction method is used to synthesize WC. This process involves pressing or sphericalizing a mixture of WO3 and graphite, and then heating it to a high temperature. In addition to the resulting tungsten carbide, other intermediate products are formed.

Recently, nano-scale WC powders have been produced by thermal plasma reaction system. They are less than 20 nm in diameter. These WC powders can contain small amounts of W2C phase.

A solvothermal method is also used to synthesize WC powder. The original mixture is heated to a specific temperature in a sealed container with an organic or non-aqueous solvent.

Another approach is the use of a carbon black as a reductant. During the C diffusion reaction, a thin layer of WC grows around the W particles. It is this thin layer that enables the growth of polycrystalline WC.

Carbonized WC powder is analyzed by Venables and Brown. Increasing the insulation time increases the oxygen content of the WC powder. But it is crucial to control the insulation time. Higher temperatures have a significant effect on the particle size of WC.

Spherical tungsten carbide powder is mainly made from a mixture of tungsten and tungsten carbide. It is characterized by good hardness and wear resistance.


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WC powder is produced through the direct carburization of tungsten powder. Various processes are used to produce ultra-fine WC powders. The particle size of the […]

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Nickel Plated Mesh

If you’re looking for a mesh that is strong and durable while offering good corrosion resistance, a nickel plated mesh may be the right choice. This wire mesh is highly versatile and can be woven into a number of different screens depending on the industry and use.

How to choose the right wire mesh for your needs

Wire mesh is a popular choice for filtration in many industries and applications, including mining, oil and gas, chemical, food, pharmaceutical, machinery, building and construction, electronics and battery production. It has a high tensile strength, is a corrosion-resistant material, and can withstand temperatures up to 600 degrees Fahrenheit.

The oxidation resistance of nickel mesh makes it an ideal choice for the filtering of air and water. It also works well in environments that contain halogens, caustic alkalines, and various organic compounds.

nickel plated mesh is a type of metal mesh that is woven from a wire with a nickel content of at least 99.5%. It is primarily used for alkali and hydrogen electrolysis cell electrodes, current collecting mesh, shielding radiation, special gas liquid filtration, etc.

A typical example of this material is the MH electrode that is commonly found in batteries. MH electrodes have an appropriate energy capacity, geometric dimensions, and mechanical integrity while having satisfactory electrochemical functioning and long cycle life. MH has the ability to conduct electricity with high efficiency and is a very effective and economical electrode material. Despite its effectiveness, MH electrodes are still susceptible to degradation during charge/discharge cycling. To combat this, a mixture of ethylene carbonate with either diethyl or dimethyl carbonate can be used to create a protective surface film on the graphite.


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    If you’re looking for a mesh that is strong and durable while offering good corrosion resistance, a nickel plated mesh may be the right choice. […]

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    MAP-K Potassiam Monoalkyl Phosphate CAS 39322-78-6

    About MAP-K Potassiam Monoalkyl Phosphate:
    MAP-K Potassiam Monoalkyl Phosphate has the characteristics of rich and fine foam, low degreasing power, low irritation to skin and hair, and good biodegradability.
    Tungstenmolybdenummetals is a trusted global MAP-K Potassiam Monoalkyl Phosphate. Feel free to send an inquiry to get the latest price of MAP-K Potassiam Monoalkyl Phosphate if you would like to buy MAP-K Potassiam Monoalkyl Phosphate in bulk.

    Product Performance of MAP-K Potassiam Monoalkyl Phosphate:
    MAP-K Potassiam Monoalkyl Phosphate can improve the combability and softness of the hair, and its mild decontamination performance makes the skin comfortable after washing.

    Technical Parameter of MAP-K Potassiam Monoalkyl Phosphate:

    Product Name    Short NameSolid content    PH    OdorAppearance  
    Potassiam Monoalkyl PhosphateMAP-K40%NASlight characteristic odorColorless to light yellow transparent liquid


    Applications of MAP-K Potassiam Monoalkyl Phosphate:

    MAP-K is a colorless to light yellow transparent liquid at room temperature, with a content of 40%; HR-S1 is a white opaque or semi-transparent paste at room temperature with a small amount of scaly crystals, with a content of 50%.

    Monoalkyl phosphate potassium salt has low irritation, rich and delicate foam, easy to wash, no slippery feeling, and good comfort after washing; excellent emulsification, solubilization, and dispersion properties; good salt and alkali resistance , Good compatibility, compatible with non-ionic, anionic, amphoteric surfactants and polyquaternary ammonium salt cationic surfactants.

    It is used as an additive for washing cosmetics to enhance the compounding effect. For example, it can be used as a foaming agent, slip reducing agent, and antistatic conditioning agent in mild facial cleansers, shower gels, and baby care products.

    Packing & Shipping of MAP-K Potassiam Monoalkyl Phosphate:
    We have many different kinds of packing which depend on MAP-K Potassiam Monoalkyl Phosphate quantity.
    MAP-K Potassiam Monoalkyl Phosphate packing: 1kg/bottle, 25kg/barrel, or 200kg/ barrel.
    MAP-K Potassiam Monoalkyl Phosphate shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

    MAP-K Potassiam Monoalkyl Phosphate CAS 39322-78-6插图

    MAP-K Potassiam Monoalkyl Phosphate Properties

    Other NamesN/A
    CAS No.39322-78-6
    Compound FormulaC12H25OPO3K2
    Molecular WeightN/A
    AppearanceNA
    Melting PointN/A
    Boiling PointN/A
    DensityN/A
    Solubility in H2ON/A
    Exact MassN/A

    MAP-K Potassiam Monoalkyl Phosphate Health & Safety Information

    Signal WordN/A
    Hazard StatementsN/A
    Hazard CodesN/A
    Risk CodesN/A
    Safety StatementsN/A
    Transport InformationN/A
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    About MAP-K Potassiam Monoalkyl Phosphate:MAP-K Potassiam Monoalkyl Phosphate has the characteristics of rich and fine foam, low degreasing power, low irritation to skin and hair, […]

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    Neodymium Nitride NdN Powder CAS 25764-11-8

    About Neodymium Nitride NdN Powder:
    Neodymium nitride is known as NDN powder. Neodymium Nitride NDN powder for lithium battery; Energy storage materials; Catalysts, etc. High purity rare earth compound materials, strictly control the content of the same group of rare earth elements, widely used in petrochemical, artificial crystal, functional ceramic devices, magnetic materials, display and other fields. Feel free to send an inquiry to get the latest price if you would like to buy Neodymium Nitride NdN Powder in bulk.
    Product Performance of Neodymium Nitride NdN Powder:
    Our neodymium nitride NdN powder (CAS 25764-11-8) is with high purity, ultrafine particle size, bigger surface area.

    Technical Data of Neodymium Nitride NdN Powder:

     Part Name High Purity Neodymium Nitride Powder
          MF NdN
        Purity 99.9%
     Particle   Size   -100 mesh
     Application Neodymium nitride NdN powder is used for lithium electronic batteries; energy storage materials; catalysts, etc.;

     

    Specification of Neodymium Nitride NdN Powder:
    Neodymium Nitride NdN Powder CAS 25764-11-8插图

    How is Neodymium Nitride NdN Powder produced?
    1. The dehydrated chloride is dissolved in methanol and electrolyzed with graphite anode (D = 12mm) and mercury cathode. The electrolytic container is equipped with glass joints with multiple grinding holes for inserting graphite anode, agitator, N2 conduit, water jacket and piston at the bottom. The voltage of 40V is used to ensure the current of 1 ~ 2A. The size of the current depends on the distance between the anode and cathode (10 ~ 20mm). The concentration of rare earth chloride is half full and the temperature is about 20℃. As used in the electrolytic reaction of cathode surface area is larger, 1 a current corresponding to the current density of 0  04 a/cm2.After 20 ~ 40h of electrolysis, the amalgam alloy flows into a container consisting of two spherical tubes. The impurities were washed with methanol in the N2 atmosphere. The unreacted mercury is then distilled from spherical tube 1 to spherical tube 2, and the spherical tube is disconnected. The composition of amalgam in tube 1 depends on the temperature at which mercury is distilled (200 ~ 300 ° C).
    2. Rare earth metals are in contact with mercury (20 ~ 30 times as much as that of rare earth metals) in glass tubes at 300 ~ 350℃.The amalgamation also purifies the metal, because the rare-earth metal oxides, which are lighter than mercury, float on the surface of the amalgam, creating a thick slurry of solid amalgam that can be nitrided directly.
     
    Applications of Neodymium Nitride NdN Powder:
    Neodymium nitRIDE pure rare-earth compound material strictly controls the content of the same group of rare earth elements, widely used in petrochemical, artificial crystal, functional ceramic devices, magnetic materials, display and other fields.

    Packing & Shipping of Neodymium Nitride NdN Powder:
    We have many different kinds of packing which depend on the neodymium nitride NdN powder quantity.
    Neodymium nitride NdN powder packing: vacuum packing, 1kg/bag, 25kg/barrel, or as your request.
    Neodymium nitride NdN powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.
    Neodymium Nitride NdN Powder CAS 25764-11-8插图1
     

    Neodymium Nitride NdN Powder Properties

    Other NamesNeodymium Nitride,NdN Powder
    CAS No.25764-11-8
    Compound FormulaNdN
    Molecular Weight158.247
    AppearanceSolid
    Melting PointN/A
    Solubility in waterN/A
    DensityN/A
    PurityN/A
    Particle SizeN/A
    Boling pointN/A
    Specific HeatN/A
    Thermal ConductivityN/A
    Thermal ExpansionN/A
    Young’s ModulusN/A
    Exact Mass155.911
    Monoisotopic Mass155.911
      
      

    Neodymium Nitride NdN Powder 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 Neodymium Nitride NdN Powder:Neodymium nitride is known as NDN powder. Neodymium Nitride NDN powder for lithium battery; Energy storage materials; Catalysts, etc. High purity […]

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    Safety Issues as a Surfactant

    What is Sodium Myristate? Sodium myristate, alias: sodium tetradecanoate. Surfactants and cleansers are three of the most important functions for sodium myristate found in cosmetics and skin products. You can use it with confidence as the risk factor is 2 It is generally safe for pregnant women. The acne-causing effects of sodium myristate are not known. The good emulsifying qualities of sodium myristate can be used in water and ethanol. It is usually prepared through saponification using sodium laurate. You can use it together if you wish. It is the primary component of soap.

    Safety Questions of Surfactants

    Surfactants have become more common in all systems that are exposed to the human body. The human condition has improved and people now have to deal with side effects from surfactants used in products that are in direct contact with the body. Pay closer attention. The focus of surfactants can be used for different purposes. It is important to pay attention to skin sensitization and mucosal irritation. aspect. The principle behind selecting cosmetic ingredients was, by way of example, to dress up. Surfactants were chosen based on their primary or most important effect. These include washing, foaming, dispersion and emulsification. The second factor is the impact of surfactants on hair and skin. The selection principle for surfactants is gradually evolving to ensure that they meet both the requirements of normal, healthy hair and the environment. The effectiveness and the auxiliary effects. Tungstenmolybdenummetals (aka. Tungstenmolybdenummetals is an advanced material. With over 12 years’ experience, Tungstenmolybdenummetals is an established global supplier of chemical materials and manufacturer. We produce Sodium Myristate with high purity, small particles and low impurities. We can help you if your requirements are lower.
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    What is Sodium Myristate? Sodium myristate, alias: sodium tetradecanoate. Surfactants and cleansers are three of the most important functions for sodium myristate found in cosmetics […]

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    Historical Information and Extraction Method of Holmium Oxide

    What’s Holmium Oxide? Also known as holmium triooxide or holmium oxide is the chemical formula H2O3. The compound of the rare element holmium with oxygen, called Holmium Oxide is known as holmium trioxide. It’s as popular as dysprosium, and one of the most paramagnetic substances. The component of erbiumoxid minerals, holmium dioxide is also made up of holmium oxygen. The natural state of holmium dioxide often mixes with the trivalent oxides lanthanides. A specific process is needed to distinguish them. You can make special colored glass with holmium dioxide. Because of its sharp peak appearance, the visible absorption spectrum for glass and solutions containing holmium dioxide is often used as a reference point to calibrate spectrophotometers.

    Crystal Structure Of Holmium Oxide

    Although Holmium dioxide crystals are part of the cubic crystal structure, their structure is complex. Every unit cell is made up many atoms. The lattice constant at 1.06nm is quite large. This structure is typical for the oxides heavy rare earth element elements Tb2O3, Dy2O3,Er2O3, Tam2O3, Tam2O3, Ty2O3, E2O3, Tm2O3, Zm2O3, Yb2O3, Lu2O3, and Yb2O3. It has 7.4 m p thermal expansion coefficient.

    History Information about Holmium Oxide

    Marc de la Fontaine & Jacques Luis Sole discovered Holmia in 1878 when they observed an unusual absorption spectrum of an unknown metal. Pell Teodorcliff also discovered this element during the 1878 study of Erbium Oxide. Cliff was able to remove impurities using the method of Carl Gustav Mossander. Two types of impurities are found among them: the brown and the green. He called the brown substance “Holmia” after Stockholm and the “thulia” green substance. He later found out that the materials he had to separate were actually holmium and thulium, respectively.

    Holmium Oxide

    Manufacturing Process We will briefly describe the process of extracting holmium oxide: crushing minerals and grinding. Repeated use of the electromagnetic beneficiation technique is required to remove the holmium oxide from the ore. The pH of the acidic filtrate can be partially neutralized by sodium hydroxide, which will give it a pH range between 3-4. Hydroxide will form from the precipitation of thorium. Ammonium oxalate is then used to transform the rare earth salt insoluble into oxalate. An annealing process converts the oxalate to oxide. After the oxide has been dissolved in the nitric, the oxide of main ingredient cerium becomes insoluble in the nitric, which separates the cerium. Ion exchange is the best method to distinguish holmium dioxide from other rare earth elements. You first need to add the rare earthions onto an appropriate ion-exchange resin. Next, you will use a suitable complexing agent like ammonium citrate, or nitrilotriacetic Acid, to wash out any remaining rare earthions.

    Holmium Oxide

    – Application Range The yellow and red colors of Soviet diamonds, and Soviet glass can be enhanced by holmium dioxide. The spectrum has sharp peak absorption values of glass with holmiumoxide and holmiumoxid solution (usually perchloric acids solution). These glasses can be used for calibration purposes and they have been commercialized. Like rare earth elements like holmium, holmium dioxide can also be used as a catalyst, phosphor, and laser material. A holmium laser can emit pulsed light or continuous light and has a wavelength approximately 2.08 m. This laser is non-harmful to the eye and can be used for medicine, optical radar and wind speed measurement. Tungstenmolybdenummetals advanced materials Tech Co., Ltd. is a professional in holmium dioxide with over 12 year experience in chemical product research and development. Send us an inquiry if you’re looking for premium holmiumoxide.
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    What’s Holmium Oxide? Also known as holmium triooxide or holmium oxide is the chemical formula H2O3. The compound of the rare element holmium with oxygen, […]

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    What material is Vanadium carbide?

    What’s VN powder?
    Vanadium carbonide has 2 crystal structures. First, V3N is a hexagonal crystal structure. This crystal structure exhibits an extreme high hardness and microhardness. Unmeasurable melting points. Second, VN is a density 613.95. A face-centered cubic crystal crystal structure gives it a microhardness and melting point of approximately 1520HV. Each has high wear resistance. Take the example of the construction industry. The vanadium/nitrogen alloying technique produces a three-grade of steel bar that not only increases the building’s safety but also reduces steel consumption by 10% to 15%. This technology alone could save approximately 7.5million tons of steel bars, 12.4million tonnes iron concentrate, 6.6 millions tons of coal and 3.3million tons of related raw materials each year in China. The carbon dioxide and sulfur dioxide emissions from the atmosphere are also greatly decreased, which has double the benefits of resource conservation as well as environmental protection.
    Vanadium caride uses
    Vanadium-nitride makes steelmaking more efficient than the high vanadium ferrous additive. As an additive to vanadium, vanadium-nitride’s nitrogen can stimulate vanadium’s precipitation. This will make vanadium particles smaller and improve the formability and welding of steel. To produce semiconductor films that are wear resistant and durable, they can also be used as the raw material for cemented caride. The new, efficient vanadium-alloy additive is capable of producing high-strength and low-alloy steel products like high-strength steel bars, non-quenched tempered steel, highspeed tool steel and high strength pipeline steel. Vanadium/nitrogen alloy is able to strengthen and refine grain better than ferrovanadium. It can also save 30 – 50% vanadium and significantly improve steel strength. Vanadium-nitrogen alloy is used often as a raw material for cemented carbide in order to create wear-resistant and semiconductor films.
    Addition of vanadium nutride to steel may improve steel’s mechanical properties such as toughness, strength and thermal fatigue resistance.
    Addition of vanadium-nitrogen alloy can reduce costs by saving 30-40% on vanadium additon. The vanadium-nitrogen alloy can be used for structural steel, tool and pipe steel, as well as cast iron.
    High-strength high-alloy steels can be made from vanadium/nitrogen alloy. It is capable of simultaneously carrying out vanadium and microalloying.

    VN powder has chemical properties
    It is a black cubic crystal. It is made up of 19.08% carbon. The melting point for this compound is 2810; the boiling point at 3900 and relative density 5.77. You can dissolve it in water, acidic cold, acidic hydrochloric acid and sulfuric acid. It can also be melted using potassium nitrate. Chemical corrosion is not possible because of its chemical properties.

    VN powder price
    VN powder market prices are affected by many variables. The market price of VN powder is changing rapidly at the moment. You can contact us anytime if you require it.

    VN powder supplier
    Advanc3dmaterials (aka. With 12 years experience, Advanc3dmaterials (aka. Our company currently has a number of powder materials. You can also order OEM. Please email us , or click the products you require to send an inquiry.


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    What’s VN powder? Vanadium carbonide has 2 crystal structures. First, V3N is a hexagonal crystal structure. This crystal structure exhibits an extreme high hardness and […]

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    Glycerol polyoxyethylene-b-oxypropylene Ether CAS 9082-00-2

    About Glycerol polyoxyethylene-b-oxypropylene Ether:
    Low foaming power, good dispersing power, strong emulsifying power, with good low-temperature fluidity.
    Tungstenmolybdenummetals is a trusted global Glycerol polyoxyethylene-b-oxypropylene Ether. Feel free to send an inquiry to get the latest price of Glycerol polyoxyethylene-b-oxypropylene Ether.  if you would like to buy Glycerol polyoxyethylene-boxypropylene Ether in bulk.

    Product Performance of Glycerol polyoxyethylene-b-oxypropylene Ether:

    Low foaming power, good dispersing power, strong emulsifying power, with good low-temperature fluidity.


    Technical Parameter of Glycerol polyoxyethylene-b-oxypropylene Ether:

    Product Name    Short NameAppearance  
    Glycerol polyoxyethylene-b-oxypropylene EtherN/AColorless transparent liquid



    Applications of Glycerol polyoxyethylene-b-oxypropylene Ether:

    Used in low-foam detergent, emulsifier, defoaming agent and fabric leveling agent, antistatic agent, metal cutting coolant, high-speed spinning agent lubricant, and adhesive; Used as a smoothing agent in chemical fiber oil agent.

     

    Packing & Shipping of Glycerol polyoxyethylene-b-oxypropylene Ether:
    We have many different kinds of packing which depend on Glycerol polyoxyethylene-b-oxypropylene Ether quantity.
    Glycerol polyoxyethylene-b-oxypropylene Ether packing: Glycerol polyoxyethylene-b-oxypropylene Ether kg/bottle, 25kg/barrel, or 200kg/ barrel.
    Glycerol polyoxyethylene-b-oxypropylene Ether shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.

    Glycerol polyoxyethylene-b-oxypropylene Ether CAS 9082-00-2插图

    Glycerol polyoxyethylene-b-oxypropylene Properties

    Other NamesGlycerol random polyether;
    Glycerol polyoxyethylene polyoxyethylene ether;
    GPE-3000
    CAS No.9082-00-2
    Compound FormulaC3H8O3·(C2H4O)n·(C3H6O)n
    Molecular WeightN/A
    AppearanceColorless transparent liquid
    Melting PointN/A
    Boiling PointN/A
    DensityN/A
    Solubility in H2ON/A
    Exact MassN/A
    Glycerol polyoxyethylene-b-oxypropylene Ether Health& Safety Information
    Signal WordN/A
    Hazard StatementsN/A
    Hazard CodesN/A
    Risk CodesN/A
    Safety StatementsN/A
    Transport InformationN/A
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    About Glycerol polyoxyethylene-b-oxypropylene Ether:Low foaming power, good dispersing power, strong emulsifying power, with good low-temperature fluidity.Tungstenmolybdenummetals is a trusted global Glycerol polyoxyethylene-b-oxypropylene Ether. Feel free to […]

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    Molybdenum Silicide

    Molybdenum Silicide is used in many industries, including the glass industry and the steel industry. It is a refractory ceramic with a high melting point and excellent oxidation resistance.

    It is important that you handle the material with care. There are many potential hazards associated with this material. If you are exposed to it, you should wash it off immediately and follow all local, state, and federal regulations for disposal.

    Molybdenum Silicide is produced in two steps. First, the material is sintered in an inert atmosphere. Second, it is sintered again in air at temperatures between 1000 and 1600 degrees.

    Typical molybdenum silicide composition contains 760 pounds of 90 percent ferrosilicon, 259 pounds of aluminum, 160 pounds of lime, and 0.02-0.05% of Al2O3. A variety of additives may be added, including calcium bentonite. This can be done in concentrations ranging from 2 to 6 weight percent.

    High-temperature applications for molybdenum disilicide include high-emissivity coatings, heat shields, and thermonuclear fusion. In addition, it can be used for advanced composite materials.

    Molybdenum silicide has good chemical corrosion resistance and stress-rupture strength. However, it is not ductile at high temperature. Because of this, it has poor high-temperature strength. When it is exposed to air, it will start oxidizing. The oxidation process will disturb the formation of a continuous silicon dioxide layer. That can lead to a lower operating temperature.

    It has low electrical resistance and is suitable for microelectronic applications. Although it is not used in aerospace, it is a promising candidate for structural applications.


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      Molybdenum Silicide is used in many industries, including the glass industry and the steel industry. It is a refractory ceramic with a high melting point […]

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