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    What happens when aluminum carbide reacts with other material?

    What is Aluminium Carbide? Aluminum carbide, an organic compound, has the molecular form Al4C3. It is yellow or green-gray crystal blocks or powder and is hygroscopic. Hydrolysis in cold water to methane, decomposition at high temperatures and aluminum hydroxide.
    What happens when aluminum carbonide reacts with water
    Aluminum carbide has four carbon atoms in each aluminum atom, which gives it a tetrahedral structure. It is stable to 1400°C. It can be broken down in water, and it produces methane. From the above reactions, it is clear that aluminum carbide can be broken down in the water and formed methane.
    What happens when aluminum reacts to carbon?
    At high temperatures, aluminum reacts with carbon, nitrogen and sulfur to form the appropriate aluminum compounds. Aluminum carbide (Al4C3) is a form of pale yellow crystals. It can be heated by heating a mixture from these elements at higher temperatures than 1000degC.
    Aluminum carbide preparation
    Coke and alumina in electric furnace heating.
    Aluminum carbide Al4C3 comes from a combination of two elements at high temperature.
    Mixture of one part heavy smoking black and six parts aluminum powder was prepared. It was moistened by pine essential oil and placed in a tight layer inside a clay crucible. Finally, it was sealed with toner. All gaps should be filled with refractory earth mixed with asbestos fibers. The mixture was then placed in a crucible and pre-dried. For 30 minutes, the mixture was heated to 1200 F. A higher temperature is better for the reaction. The product is then cool and treated with dilute chloric acid (or an Alkaline solution). Aluminum carbide is prepared as fine crystal powder. It is then washed with water to remove any aluminum chloride. Finally, the product is quickly washed and placed in a drying oven at 90 80 degrees for drying. It contains a lot of aluminum nitride.
    Pure aluminum carbide is inert, but the products that are made using this process can have different colors from those produced by other impurities.
    Pure products without aluminum nitride are possible when they are calcined with hydrogen and a mixture containing calculated amounts aluminum and smokeblack. This takes about 2 to 3 hours and is done at 1800 1900. The prepared product can be ground again and calcined again at above temperatures
    What's the difference in Al4C3 and CaC2?
    Answer: Most likely beryllium carbonide [Be2C]. And aluminum carbide[Al4c3]. Beryllium oxide (Be0) reacts with carbon at 2000degC[3600degF] in order to form brick-like Beryllium carbide. While the pale yellow aluminum caride is made from aluminum and carbon in an oven,
    (aka. Technology Co. Ltd. (aka. Our company has developed a number of materials. Our company produces aluminum carbide with high purity, fine particle sizes, and low impurities. Send us an e-mail or click on this link Needed products Send an inquiry



    2023-04-20

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    What is MnO2 Powder?

    What is it? MnO2 Oil ? Manganese dioxide has an organic compound chemical formula of MnO2. It can be found as a black amorphous crystal or black orthorhombic stone. It is insoluble when it comes into contact with water, weak acids, weak bases, nitric and cold sulfuric. Used as an oxidant, rust removal, and catalyst in the preparation of manganese sodium salts.
    The characteristics of MnO2 Pulver
    1. Acidity and acidity: Manganese dioxide is an amphoteric dioxide. This is a stable, black powdery solid at ambient temperature that can be used as a polarizer for dry batteries. Its oxidizing ability is frequently used in laboratories. In order to make chlorine gas, it reacts with concentrated HCl.
    2. Manganese dioxide can be described as an amphoteric ore, and there are also corresponding salts such as BaMnO3/SrMnO3 (obtained from a compound reaction in an alkali system), [1], and manganese trichloride. .
    3. The reaction of a reducing agent with an oxidizing agent is known as oxidizing. For example, manganese dioxide is heated to 1400K using a hydrogen stream to make manganese oxide. Manganese dioxide can then be heated to brown-black manganese triooxide by heating it in an ammoniastream. To make chloride manganese and chlorine, concentrated hydrochloric acid is used to react with manganese dioxide.
    4. The strong oxidants also have a reduced form. When manganese dioxide and potassium carbonate or potassium nitrate are combined and melted, you can get a dark green melting solution. This can then be dissolved into water and cooled to produce potassium manganate which is a compound containing hexavalent magnese. It is a strong oxidant when used in acidic media.
    5. Strong oxidant. It does not burn by its own, but it supports combustion.
    6. As a catalyst [1] for the reaction of potassium chlorate (KClO3) decomposition, and hydrogen peroxide(hydrogen peroxide H2O2) decay.
    Manganese Dioxide Properties
    Other Titles manganese oxide, MnO2 powder
    No. 1313-13-9
    Combination Formula MnO2
    Molecular Weight 86.94
    Appearance Black Powder
    Melting Point 535 degC
    Boiling Point N/A
    Density 5.03 g/cm3
    Solubility of H2O Insoluble
    Exact 86.9279
    Manganese Dioxide MnO2 CAS 1313-13-9
    Application of MnO2 Powder
    1.Organic Synthesis
    Organic chemistry uses manganese dioxide extensively. Manganese oxide can be used in various forms. This is because manganese dioxide has multiple crystalline forms. The chemical formula for manganese dioxide is MnO2x(H2O),n. Where x can be between 0 to 0.5 and n may be greater than 0. You can make manganese dioxide by reacting potassium permanganate with manganese sulfate at different pH.
    Manganese dioxide has a specific chemical reaction that converts alcohols to aldehydes. Even if alcohols have double bonds they won't be oxidized with manganese dioxide. No matter how active a product may be, it will not again be oxidized. Manganese dioxide can oxidize diols into dialdehydes. You can use manganese dioxide to oxidize amines as well as aromatics and triols.
    2.Laboratory Use
    It is used in the decomposition of hydrogen peroxide to produce oxygen. It can be used to make yellow glass, pigments, and other materials. To produce chlorine, react with hot concentrated hydrochloric Acid in the oven; then react with molten potassium potash in the atmosphere to produce potassium manganate. In the decomposition reaction for potassium permanganate manganese dioxide serves as an autocatalyst to high Potassium Manganate.
    MnO2 Powder is supplied by the main supplier
    Tech Co., Ltd. () is a professional Oxide powder Over 12 years' experience in chemical products development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
    You can find high-quality powdered boron carbide here Please contact us Send an inquiry

    2023-04-17

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    What is Molybdenum Silicide?

    What is it? Molybdenum Silicide ? Molybdenum Disilicide is an organic compound with the chemical composition MoSi2. It is a grey metallic solid. Although insoluble in most acids it is soluble in nitric acid and hydrofluoric acid. The radii of these two atoms do not differ much, and their electronegativities are very close. They also have properties that are similar to metals and ceramics. Molybdenum Disilicide can be used as an electrically conducting material. A passivation layer made of silicon dioxide can also be created on the surface at high temperatures to prevent further oxidation. It is used to make high-temperature antioxidation coating materials, integrated electrode film, structural materials and reinforcing agents in composite materials.
    Molybdenum Siicide:
    MoSi2 (intermediate phase) is the most silicon-rich in the Mo-Si binary alloy system. It's a Dalton type intermetallic compound of fixed composition. This high-temperature material has great performance because of its dual properties of metal and ceramic. Excellent high temperature resistance to oxidation, it has a oxidation resistant temperature of 1600. This is equivalent in SiC. It also has a moderate density (6.24g/cm3), low thermal expansion coefficient (8.10-6K-1), good electrical conductivity, high brittle-ductile temperature (1000 ) and is below ceramic-like hardbrittleness. It is soft and plastic-like metal above 1000. MoSi can be used in integrated circuits, heating elements and high temperature antioxidation coatings.
    MoSi2 consists of silicon and molybdenum bonded with metal bonds. In MoSi2, silicon and silicon are also bonded via covalent bonds. Molybdenum Disilicide is a gray tetragonal crystalline. It is insoluble within common mineral acids (including aqua regia), however, it is soluble in mixed acid of nitric and hydrofluoric acids. It can be used to heat elements in high-temperature (1700) environments due to its high resistance to high-temperature oxygenation.
    An oxidizing atmosphere forms a protective layer on the dense quartz (SiO2) surface. This prevents continuous oxidation and oxidation prevention of molybdenum disilicide. SiO2 fused at 1710degC to form molten droplets. It loses its protective power due to the act of expanding its surface. The oxidant acts on the element and forms a protective film. It is important to note that this element can not be used for prolonged periods in temperatures between 400 and 700 degrees C due to its strong oxidation at lower temperatures.
    Molybdenum Silicide Properties
    Other Titles molybdenum disilicide (MoSi2 Powder)
    No. 12136-78-6
    Combination Formula MoSi2
    Molecular Weight 152.11
    Appearance Gray to Black Powder
    Melting Point 1900-2050 degC
    Boiling Point N/A
    Density 6.23-6.31 g/cm3
    Solubility of H2O N/A
    Electrical Resistivity 0.0000270 - 0.0000370 ohm-cm
    Specific heat 0.437 J/g-degC (23 degC)
    Tensile Strength 185 MPa
    Thermal Conductivity 66.2 W/m-K (23 degC)
    Thermal Expansion N/A
    Vickers Hardness 900-1200
    Young’s Modulus N/A
    Exact 153.859261
    Molybdenum Silicon MoSi2 MoPowder CAS 12136-876-6
    Molybdenum Silicide:
    Molybdenum disilicide can be used in high-temperature anti-oxidation coatings, electric heating elements and integrated electrode films.
    1. Energy chemical industry: Electric heating elements, high heat exchangers of nuclear reactor devices, gas burners. High temperature thermocouples with their protective tubes. Melting vessels and crucibles are used to melt sodium, lithium and other metals.
    2. MoSi2 and other reactive metal silicides, such as WSi2, TaSi2, Ti5Si3, WSi2, TaSi2, etc. are used in the microelectronics sector. are key candidate materials for large-scale integrated gate and interconnect film production.
    3. Aerospace industry. It has been extensively and thoroughly researched and successfully applied as a high temperature antioxidation coating material. This material is especially useful for components of turbine engines such as blades or impellers.
    4. Automobile industry: engine parts, turbocharger rotors and valve bodies for automobiles.
    Molybdenum Silicide's main supplier
    Tech Co., Ltd. () is a professional silicide powder Over 12 years' experience in chemical product development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
    You can find high-quality powdered boron carbide here Please contact us Send an inquiry




    2023-04-11

    Blog

    What are the Characteristics of Nitinol?

    Nickelol is an alloy of nickel and titanium that has about 50% nickel. It was discovered in 1960, but it would take years for Nitinol to make it to the market. This is due to the difficulty in processing and manufacturing. Most of Nitinol’s applications have been realized by the mid-1990s. Its shape memory properties and superelasticity made it useful in many different applications. Nitinol has shape memory, which means it can be transformed into a new form at a temperature below the normal body temperature and then return back to its original form if heated above its transition temperature.

    Characteristics & Properties of Nitinol
    Nitinol has the unique ability to adapt to particular strains and is compatible to the human body. Therefore, it is a great choice for many medical applications. Nitinol displays a cubic crystal structure, known as austenite (also called the parent phase). It spontaneously becomes martensite at lower temperatures. The temperature at where austenite turns to martensite, also known as the transition temp, is commonly called the Ms temperature. The temperature that martensite fully forms is known as Mf temperature. These two features of Nitinol's structural structure -- shape-memory and superelasticity -- allow it to show a reversible reaction to applied stress. This is directly caused by the phase change between the martensitic and austenitic phases.

    These two aspects are critical to Nitinol’s properties. The transition is "reversible", meaning that heating above transition temperature will return the crystal structure back to its simpler form. The second important point is that two-way conversion occurs instantly.

    Martensite crystals have the unique ability to undergo finite atomic bond breaking without causing any damage. This type of deformation is called twins and involves the rearrangement atomic planes without causing any permanent deformation. This can withstand around 6-8% strain.

    Martensite can be converted to austenite using heating. The original structure of the austenite structure will still be intact, regardless of how deformed the martensite phase may have been. This is why the term "shape memories" refers to how the high-temperature austenite phases are "remembered", even though they deform severely at lower temperatures.

    The Nitinol medical devices, such as a Stent, can be made at the body temperature, deformed at another temperature and then placed into an artery. Once it is back at its normal temperature, it will return to its original size. The device will also fully recover after being bent to extremely high strain rates (upto 7%).

    Super-elastic effect of Nitinol Wire
    This "hyperelasticity" allows you to use a Nitinol-wire device that has been bent, shaped or placed in your body. The tube can accommodate small grasping or biopsy tools that are smaller than those made from standard alloys. Nitinol is a lightweight alloy with unique properties that makes it ideal for biomedical applications. This includes heart valve tools, stents (stents), nails, bone anchors or complex diaphragm defects devices.

    But heat-treating Nitinol to achieve the desired transition temperature is delicate. Temperature and age control the precipitation process of various Ni-rich phases. This is done to regulate the nickel content within the lattice. Aging decreases the nickel matrix, increasing the transition temperature. It is crucial to combine heat treatment with cold work in order to control the properties and alloy Nitinol.

    Ni-Ti Alloy powder price
    Price is affected by many factors, including supply and demand in a market, industry trends and economic activity.
    Send us an inquiry if you're looking for the most recent Niti alloy powder cost. (brad@ihpa.net)

    Niti Alloy Powder Supplier
    Technology Co. Ltd. is a trusted global supplier and manufacturer of chemical materials. We have more than 12 years experience in producing super high-quality chemicals.
    Send us an inquiry if you're looking for Ni-Ti powder of high quality. (brad@ihpa.net)

    2023-04-08

    Blog

    The Applications of Molybdenum Silicide

    What is it? Molybdenum Silicide ? Molybdenum Disilicide is an organic compound with the chemical composition MoSi2. It is a grey metallic solid. Although insoluble in most acids it is soluble in nitric acid and hydrofluoric acid. They are similar in radii to metals and ceramics. Molybdenum Disilicide can be used as an electrically conducting material. A passivation layer made of silicon dioxide can also be created on the surface at high temperatures to prevent further oxidation. It is used to make high temperature antioxidation coating materials, integrated electrode film, structural materials and reinforcing agents in composite materials.
    Molybdenum Siicide:
    MoSi2 (intermediate phase) is the most silicon-rich in the Mo-Si binary alloy system. It's a Dalton type intermetallic compound of fixed composition. This high-temperature material has great performance because of its dual properties of ceramics as well as metal. Excellent high temperature resistance to oxidation, it has a oxidation resistant temperature of 1600. This is equivalent in SiC. It also has a moderate density (6.24g/cm3), low thermal expansion coefficient (8.10-6K-1), good electrical conductivity, high brittle-ductile temperature (1000 ) and is below ceramic-like hardbrittleness. It is soft and plastic-like metal above 1000. MoSi can be used in integrated circuits, heating elements and high temperature antioxidation coatings.
    MoSi2 consists of silicon and molybdenum bonded with metal bonds. In MoSi2, silicon and silicon are also bonded via covalent bonds. Molybdenum Disilicide is a gray tetragonal crystalline. It is insoluble within common mineral acids (including aqua regia), however, it can be dissolved in mixed acids of hydrofluoric and nitric acids. It can be used to heat elements in high-temperature (1700) environments due to its high resistance to high-temperature oxygenation.
    An oxidizing atmosphere forms a protective layer on the surface quartz glass (SiO2) that has been heated to high temperatures. This prevents continuous oxidation. SiO2 fused to form protective films when temperatures exceed 1700degC. It loses its protective power due to the act of expanding its surface. The oxidant acts on the element and forms a protective film. It is important to note that this element can not be used for prolonged periods in temperatures between 400 and 700 degrees C due to its strong oxidation at lower temperatures.
    Molybdenum Silicide Properties
    Other Titles molybdenum disilicide (MoSi2 Powder)
    No. 12136-78-6
    Combination Formula MoSi2
    Molecular Weight 152.11
    Appearance Gray to Black Powder
    Melting Point 1900-2050 degC
    Boiling Point N/A
    Density 6.23-6.31 g/cm3
    Solubility of H2O N/A
    Electrical Resistivity 0.0000270 - 0.0000370 ohm-cm
    Specific heat 0.437 J/g-degC (23 degC)
    Tensile Strength 185 MPa
    Thermal Conductivity 66.2 W/m-K (23 degC)
    Thermal Expansion N/A
    Vickers Hardness 900-1200
    Young’s Modulus N/A
    Exact Mass 153.859261
    Molybdenum Silicon MoSi2 MoPowder CAS 12136-876-6
    Molybdenum Silicide:
    Molybdenum disilicide can be used in high-temperature anti-oxidation coatings, electric heating elements and integrated electrode films.
    1. Energy chemical industry: Electric heating elements, high heat exchangers of nuclear reactor devices, gas burners. High temperature thermocouples with their protective tubes. Melting vessels and crucibles are used to melt sodium, lithium and lead.
    2. MoSi2 and other reactive metal silicides, such as WSi2, TaSi2, Ti5Si3, WSi2, TaSi2, etc. are used in the microelectronics sector. important candidates materials for large-scale integrated circuit gates and interconnect films.
    3. Aerospace industry. It has been extensively and thoroughly researched and successfully applied as a high temperature antioxidation coating material. This material is especially useful for components of turbine engines such as blades or impellers.
    4. Automobile industry: engine parts, turbocharger rotors and valve bodies for automobiles.
    Molybdenum Silicide's main supplier
    Tech Co., Ltd. () is a professional silicides powder Over 12 years' experience in chemical products development and research. We accept credit cards, T/T and West Union payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
    You can find high-quality powdered boron carbide here Please contact us Send an inquiry


    2023-03-24

    Blog

    What is Molybdenum Disilicide Used For?

    Molybdenum diilicide MoSi2 a form of intermediate phase has the highest silicon content within Mo-Si binaural alloy. This is a Dalton intermetallic compound. The material is high in temperature and exhibits excellent performance. It has both the characteristics of metal as well as ceramic. MoSi2 exhibits good resistance to high temperatures, with a oxidation resistant temperature as high at 1600. It is very similar to SiC. It exhibits moderate density (6.24g/cm3). Low thermal expansion coefficient (8.1x 10-6 K-1), high electrothermal conductivity (good electrothermal conductivity), and ceramic-like hardness, brittleness, and lower brittle-ductile temperature (1000). It has a soft plasticity that is metal-like and exceeds 1000. MoSi2 is used primarily as an integrated circuit heating element and high temperature oxidation resist coating.
    MoSi2, silicon and molybdenum are bound by metal bonds. In MoSi2, silicon and silica are connected via covalent bonds. Molybdenum is a gray, tetragonal molybdenum. It cannot be dissolved in all mineral acids except aqua regia, but it can be dissolved in a mix of hydrofluoric acid and nitric acid. It can be used to heat in high-temperature oxidation environments (1700) due to its excellent oxidation resistance.

    How is Molybdenum diilicide used?
    In high temperature antioxidation coatings, electric heating elements and integrated electrode films, molybdenum diicides are used. Specifically:
    Chemical industry for energy: high temperature heat exchangers in atomic reactor devices and gas burners. High temperature thermocouples with their protective tubes. Melting vessel crucibles are used to melt sodium, lithium or lead.
    Industries in microelectronics: MoSi2 is an important material for interconnect film and gate materials of large-scale integrated Circuits.
    High temperature anti-oxidation coatings for aerospace industry. This material was the subject of extensive research. It is used as a material for components of turbine engines such as blades. impellers. burners. tail nozzles. sealing devices.
    Automotive Industry: Engine parts, turbochargers, valve bodies and spark plugs.

    What are the MoSi2 restrictions?
    MoSi2 is very soft at low temperatures (below 1000°C), which indicates that it will become plastic when heated up to higher temperatures.
    The material is also susceptible to creeping at temperatures higher than 1200°C.

    Molybdenum disilicide MoSi2 MoSi2 Price
    Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
    Send us an inquiry if you're looking for the new MOSi2 powder price. (brad@ihpa.net)

    Molybdenum disilicide MoSi2 MoSi2 Powder supplier
    Technology Co. Ltd. (), is a respected global supplier and manufacturer of chemical materials. It has over 12 years experience providing high-quality chemicals, nanomaterials and other super-high quality chemicals, such as graphite, zinc, magnesium sulfide or calcium nitride.
    Send us an enquiry if you're looking for MoSi2 powder of high quality. (brad@ihpa.net)

    2023-03-23

    Blog

    How to Find the CsBr Melting Point

    CsBr is a rare element with a melting point of about 636 deg C. It is an ionic compound of caesium and bromine. This white powder is widely used as an analytical reagent and X-ray phosphor screen. However, it has a few drawbacks. For instance, it has an unusually high crystallization temperature and is very water-soluble. In addition, it is easy to burn if it is exposed to too much heat. So, it is best avoided in direct contact with molten metals or liquids.

    The best way to extract the most useful information from a CsBr evaporation source is to observe the temperature distribution. Here, the central portion and the peripheral portion are both about 1 deg C cooler than the rest. To find out what the difference is, we can use a graph.

    Similarly, to find out what the best pretreatment temperature is, we can make a chart. The highest pretreatment temperature is preferably within the range of formula (1). If the phosphor is a columnar material, the diameter of the largest phosphor columnar body is also related to the average temperature of the evaporation source. A typical example is using a dry nitrogen gas atmosphere.

    Finally, to find out what the best CsBr evaporation source could be, we will consider the alkali halide phosphor layer. A typical phosphor layer consists of several layers, namely the coating layer, the matrix and the point-like portion. Each of the layers is made of different crystallinity and thus, the thickness of the phosphor layer varies from one layer to the next.


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    2023-01-31

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