Advanced nanomaterials and chemicals for bio medical. |Biomedicalmaterialsprogram

Newsbiomedicalmaterialsprogram

Tag: powder

Page 4/5

Email: inquiryartista2020@gmail.com


    Blog

    Sulfur Powder Formula

    sulfur powder formula

    Sulfur, or sulfate, is an important component of gunpowder (“black powder”). This pyrotechnic fine powder is a very versatile substance that can be used in many different applications.

    It can also be a valuable ingredient in the production of fertilizers. Elemental sulfur is a bright yellow, crystalline solid at room temperature and is often used as a soil amendment to increase the sulfur content of depleted soils.

    The oxidation of sulfur atoms under normal conditions produces cyclic octatomic molecules with the chemical formula S8 (with a broad band at 380 to 540 cm-1). These octahedral molecular compounds are characterized by their orthorhombic form, a-sulfur, which is stable up to 96 degC (204.8 degF) and rapidly changes into g-sulfur, a monoclinic ring-opening polymer.

    These cyclic octahedral sulfide molecules are highly reactive and have a strong, unpleasant odor reminiscent of rotten eggs. When heated with hydrogen, these molecules undergo radical transformations to form hydrogen sulfide gas that is extremely toxic to mammals, as it inhibits hemoglobin and certain cytochromes in a manner similar to cyanide and azide.

    Sulfur is a major element in the Earth’s crust and is found in rocks and minerals throughout the world. It is particularly abundant in volcanic areas, salt domes, and geothermal hot springs. Sulfur is also present in some meteorites and as a mineral in seawater. It is commonly used in the manufacturing of cement, rubber, pesticides, and other products. Sulfur is also a key ingredient in black powder, which is the most common type of explosive.

    2023-03-12

    Blog

    Tungsten Powder Density

    tungsten powder density is an important characteristic for tungsten processing materials and tungsten alloys. It can be influenced by controlling reduction parameters and adjusting the particle size distribution.

    Tungsten is a highly rare element found in ores such as scheelite and wolframite. It has an atomic weight of 74 and a specific gravity of 1.10.

    Spherical tungsten powder is used as the raw material for making tungsten metal, tungsten processing materials, tungsten alloys and tungsten products. It is also widely used in the production of radiation shielding fillers, weight fillers and induction accelerators.

    Typical packing density of fine and coarse tungsten powder is 20-120 g/in3. Density can be increased up to 130 g/in3 with extra processing steps by controlling the reduction parameters and adjusting the particle size distribution.

    Controlling the reduction parameters makes it possible to produce powder with any average grain size between 0.1 and 10 um. This can be achieved by introducing nitrogen into the discharge or using a tungsten oxide reductant.

    Reduction of tungsten oxides by hydrogen is an excellent method for producing high-quality tungsten powder. It is the most effective way of producing tungsten powder with any size distribution between 1 and 10 um. Its unique characteristics include: (a) a high nucleation rate, which leads to a small grain size; (b) high mobility of the tungsten particles; and (c) a good particle transport by the chemical vapour diffusion process.

    Besides, it can improve the sintering process and the performance of various tungsten-based products. It can provide excellent surface finishes and a strong mechanical strength with good ductility, as well as resistance to oxidation.

    2023-03-10

    Blog

    What Is Stainless Steel Powder?

    For 3D printing, stainless steel powder (low-carbon steel) is a good choice. It is low in carbon, has high resistance to rust and high sphericity. You can learn about its properties to help you make educated decisions regarding your 3D printer project. You can choose from various grades of stainless steel powder.

    The sphericity of stainless steel powder is high

    Recently, a new invention was made that allows for the production of high-spherical stainless steel powder. This process can be used for many purposes, such as hot investment casting, powder metalurgicy, and injection molding. The method makes it easy and affordable to prepare spherical Stainless Steel Powder.

    A gas atomization process is used to produce the powder. This powder is very spherical and has a fast rate of solidification. This process is very valuable for powder metallurgy. It is extremely formable with high sintering ability.

    To determine the particle sizes, phase distributions and morphology of a UNS S32205 powdered stainless-steel alloy, this study was done. Its structure was very different to that of as-cast. The surface is extremely smooth, which makes it ideal for many industrial applications.

    This powder is an alloy that can be used in 3D printing. Multistage atomization made it possible to control the composition as well as particle size. The alloy was also made more pure by the multistage atomization process. It is now possible to use this powder for 3D printing thanks to its high sphericity.

    To analyze the powder, JEOL, XRD and plasma were all used. SEM analysis confirmed that most powders were spherical. However, not all of the powder was spherical. Some powder retained its old shape.


    Low-carbon steel

    Low-carbon stainlesssteel powder refers to a low-carbon grade of stainless steel. A low-carbon powder of stainless steel is made by converting molten steel that contains chromium, carbon and steel into a powder. The powder is then mixed with water to lower the amount of oxygen. After the powder has been atomized, it is heated in an atmosphere that reduces its oxygen content.
    A key part of improving resistance to corrosion is reducing carbon in low cost stainless steel. It increases strength and durability of the material. It is an austenite stabiliser. The clad's resistance to corrosion can be affected by this element. This is why a lower nitrogen level would not be advised.

    The low-carbon powders of stainless steel have a variety of properties. These powders can be used for prototypes and large-scale production. These powders are quick to turn around, which is crucial for engineers. This powder can be used in automotive applications. This powder can be printed and flows very well.

    You can make low-carbon powders of stainless steel with large increases in green strength and density. It is made with low-carbon, oxygen and silicon contents. These elements usually weigh less than 0.3%.


    It is resistant to rust

    Due to its high levels of chromium stainless steel is highly resistant to corrosion. This protective layer may become worn down or damaged, which can allow corrosive substances into the environment below the powder coating. This will cause the metal to rust.

    Stainless steel is a key metal that can be used for the production of various metallic objects such as scissors and knives. This metal is extremely resistant to corrosion, making it an excellent choice. Rust is inevitable in metals but it can cause expensive damages.

    Powder coating is a way to make stainless steel more colourful and change its texture. This powder coating provides corrosion resistance in salty and chlorinated environments. Additionally, this coating improves the metal's resistance to corrosion.

    Powder coatings can improve corrosion resistance but also increase stainless steel's attractiveness. To enhance their visual appeal, powder coating is often used on railings or other metal objects. An engraved stainless surface with powder coating is more resistant to fingerprints.
    The strength and endurance of stainless steel is enhanced by the chromium oxide layer. There are many alloys of steel that make the metal: iron, carbon, nickel, sulphur sulphur and even silicon. The metal is protected from corrosion when these elements are combined.


    You can use it in 3D printing

    One of the most common materials used in 3D printing is stainless-steel powder. While it's not ideal for traditional machining and is therefore unsuitable, stainless can be used for 3D printing metal parts. This is because of its high corrosion resistance and durability in extreme environments. The large surface area of stainless allows for rapid reactions. It is stronger than any other material, such as aluminum.

    For 3D printing of powder 304 stainless, it is required that the atomization step be performed in multiple stages. This process allows precise control of the O and N element levels in powder. This process increases particle size, and sphericity. This results in 304 stainless.
    Ideal for 3D printing: Powder

    3D printing can be done on parts with complex designs, or machines that require complex components. It allows you to design your parts more freely and doesn't require any stability. Also, there is no need to support metal 3D-printed components. This makes it easier for you to design. Metalworking is increasing the use of additive manufacture by 30% each year. These benefits include lower production costs and shorter lead times.

    A high flow rate is essential for metal powders in 3D printing to optimize its efficiency. The 3D printer can manipulate powders more efficiently if there is a high flow rate. Products printed with powdered materials are thus more stable.


    A contract manufacturer

    An contract producer of stainless-steel powder provides a wide range of services for its customers. Many OEM processes use stainless steel powder as a component. This metal is also used in bearings, self-lubricating and other applications. Additional operations include CNC machining, oil and resin impregnation and CNC machining.

    SMS Group, a global construction company for plants, has agreed to supply Outokumpu with a stainless steel-atomization plant. Outokumpu is to pay SMS Group for any amount of stainless steel powder produced. There will also be an induction melter as well as an atomizer. The plant will have two cyclones. Plants will also have filters that enable them to operate in an inert setting. The plant will be able to measure temperature accurately and not suffer from variations that can result from atmospheric changes. In early 2022, the plant will be ready for operation. This plant is capable of producing up to 325 tons annually in stainless steel powder.

    ASL provides a wide range of powders from stainless steel. All of these powders are corrosion-resistant, abrasion-resistant, and even resistant to rust. You can also order high-pressure gas or water-atomized products from this company. They can also be ground or spray dried and heat-treated to achieve a wide range of hardness levels. There are many uses for stainless steel powder, such as chemical processing or food processing.


    The atomization is done in multiple stages

    Multistage Atomization (stainless steel powder) is a method of making stainless steel. It involves the use compressed air jets that break down molten steel and then cool it. This is an important step in metalworking, and it has led to the creation of numerous alloys. The atomized particles are high in oxygen, uniformly distributed and generally have an extremely high level of opacity. The metal can affect the shape of their particles.

    Multistage Atomization allows for the production of high-performance stainless metal powders, suitable to be used in 3D printing. It allows manufacturers to control O/N compositions as well as the size of powder.

    Atomization offers many benefits over traditional manufacturing processes. Controlling the oxygen and particle sizes is one of its most valuable advantages. Although this is a simple method, there are significant energy requirements. You can determine the basic properties of powders using standard testing methods. Particle size can be determined by standard testing methods, such as sieve analysis and sedimentation analyses, along with the gas permeation technique. The ultrafine powder may also be measured using electron microscopy and Xray small-angle scattered methods.

    A gas atomization technique that uses heated gas to produce the powder involves advanced gas atomization techniques. These particles become smaller and more uniform due to the heat created during this process. This allows for lower energy consumption, and better yields.


    Price for stainless steel powder
    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 enquiry to get the most recent price for stainless steel powder. (brad@ihpa.net)

    Suppliers of stainless steel powder
    Technology Co. Ltd. has over 12 years of experience as a trusted supplier of stainless steel powder. All of our products are available for shipment worldwide.

    We can help you find stainless steel powder. Please contact us to send an inquiry. (brad@ihpa.net)

    2023-03-09

    Blog

    MnO2 Powder

    Product Details

    mno2 powder is a pure, dark brown nanopowder consisting of particles of manganese oxide with average diameters of 40 to 60 nm. The unique chemical reactivity of this material makes it a useful ingredient in a wide range of applications from biosensors to coatings.

    This nanoparticle is manufactured at our nanoscale production facility and is available in pellets, pieces, sputtering targets, tablet, and powder form. It also can be purchased in bulk quantities.

    Uses

    This powder is used for manufacturing of dry cell, glass, ceramics, pigments, paints, dyes, organic, inorganic and aromatic chemicals. It is also used in water treatment plant to remove iron from the water.

    oxidizer, catalyst

    MnO2 is an important reagent in the oxidation of allylic alcohols and methyl esters. It can also be used to oxidize other organic compounds, such as amines and aromatics.

    Manganese dioxide is commonly used in electrolytic manganese dioxide (EMD) batteries with zinc-carbon anodes and zinc chloride cathodes. These cells have been found to be superior to those using a combination of zinc and ammonium chloride.

    oxidizer, catalyst

    This reagent is an efficient and reusable catalyst for the aerobic oxidation of benzylic and allylic alcohols. It is also a powerful oxidant for the oxidation of diols to dialdehydes.

    oxidizer, catalyst

    This reagent is an efficient and dependable catalyst for the aerobic oxidation of a variety of alcohols, including allylic and benzylic, to saturated ketones under mild conditions. It can also be used to oxidize a number of other organic compounds, such as amines, aromatics, and triols.

    2023-03-07

    Blog

    What Is Zinc Sulfide Powder?

    For one hour, UV light can recharge the glow pigment of the first generation. You can recharge it up to 1,000 times over a period of 10 years. It's used in tattoos as well as other industrial applications. Zinc sulfuride is used in many applications, including for skin care. But it can be quite costly.

    To achieve different results, the zinc sulfur powder may be used in a variety of ways. It is important to have the powder undergo an oxidation stage when it is combined with organic material. The powder can become darker if the environment is not reducing. Air, argon and helium can be used to oxygenate the powder.

    Powder is then cleaned and treated for impurities. It is then cleaned of impurities such as organic matter, sulfur ions and free sulfur. The powder can then be brought to room temperature after this process. After the powder has reached the right temperature, hydrogen sulfuride can be used for reducing the sulfate crystals of zinc sulfide.

    Research reports covering the Zinc Sulfide Pulp market offer in-depth analyses of market drivers and trends. The reports include valuable recommendations that can be used by both new and existing companies. It also provides regional analysis which aids businesses in developing effective business plans. This report includes information on the worldwide and regional markets for Zinc Sulfide Pulver.

    Zinc sulfuride powder can be used to produce luminescent materials. This powder can also be used to make paints and plating. Powder has great processing and heat stability. It is one the most commonly used metals.

    Although zinc sulfide is safe, you should properly store and handle it. While it is harmless for humans, the powder can cause severe poisoning to plants and animals. Zinc sulfuride can easily be produced by heating zinc and sulfur solution.

    Zinc sulfuride, which is made by acid processing, contains zero sulfur and no sulfate. The metal's near infrared transmittance is reduced by these ions. The ions can also lead to cracks within the polycrystalline element. If the pressure is increased, cracks can form a pattern that forms in the finished pressing.

    Zinc sulfuride has the ability to emit luminescence as well as fluorescence or phosphorescence. This makes it valuable in electronics. You can use it to make luminous paints, cathode radiation tubes and other applications. Finally, the chemical is used in creating lithopone. This is a mix of zinc, other elements.

    Zinc sulfuride is useful in many applications such as cosmetics, paints, adhesives and adhesives. This can be used for industrial purposes and medical reasons. It can also be used as a colorant, in rubber and plastic. Low-gloss paints often contain it.

    The prototypical IIVI semiconductor is zinc sulfide, which has a band gap at 3.54 electron volts (300 kelvins). This can be also doped to create a p-type of semiconductor.

    Technology Co. Ltd. has over 12 years of experience as a ZnS supplier and manufacturer. All of our products are available for shipment worldwide.

    Send an inquiry if you need high-quality zinc sulfuride powder. (brad@ihpa.net)

    2023-03-03

    Blog

    How to Produce 3D Printing Metal Powder

    What does 3D printing of metal powder mean? 3D printing with metal powder is an advanced 3D technology. This 3D printing method uses metal powder to print parts directly from metal. It is most commonly used to create complex structures.

    How can I make metal powder for 3D printing?
    The fundamental aspect of powder metalurgisty is the manufacturing of metal powders. Different techniques can be used to make powder, such as electrolysis, carbonyl descomposition, grinding, or atomization.
    Solid state reduction, electrolysis and chemical methods are the most popular ways to produce metal powder.

    Many manufacturers resort to electrolysis and other reduction methods when producing elemental metal particles. These methods aren't suitable for producing alloy powders. But, manufacturers use atomization to create alloy powders.

    An alternative method for producing powdered metallic metals is to use electrolysis. Different metals are deposited in sponges or powders by selecting the appropriate composition, temperature and concentration. Following that can be washed, dried, reduced, annealed, and crushed. This produces high-purity metal powder. This method is used for producing high conductive copper powder.

    Atomization refers to the method of pulverizing molten metallic into smaller pieces than 150 mM or less. According to how the metal is broken, the methods for atomization include centrifugal, ultrasonic and vacuum atomization. All of the atomization processes have different characteristics. They have all been used successfully in industrial production.

    3D Printer Prices

    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 enquiry to get the best 3D Printing Metal powder prices. (brad@ihpa.net)

    3D printing metal powder supplier

    Technology Co. Ltd. (), is a reliable 3D Printing Metal Powder manufacturer and supplier. We have over 12 years experience. All of our products can be shipped worldwide.

    You can find high-quality 3D Printing Metal powder here Get in touch You can also send us an inquiry. (brad@ihpa.net)

    2023-03-01

    Blog

    What is Nano Diamond Powder?

    This article will focus on the uses of nano diamond powder Its properties will be discussed. Learn about how nano diamond powder is made and what it costs. The basics of nano diamond powder are essential if you're interested in buying it. For both novice and professional engineers, this article is a great resource. You will be able to make an informed decision.

    Uses of nano-diamond powder

    This report covers the Global Nano-diamond Powder Market. It provides information regarding market size, trends, competition, as well as the current status of the market. This report provides market segmentation by types, regions, and applications. This report also includes information about the market's demand and supply ratios.
    Many sectors, both medical and not-medical, have Nanodiamonds. You can use them in medicine, drug delivery, and bio-imaging. Because of their unique properties, they are useful in non-invasive imaging. Even bio-labeling agents can be made with Nanodiamonds

    Nanodiamonds have a high specific area and can be used to catalyze chemical reactions. You can use them as chemical sensors transducers. You can combine Nanodiamonds and other materials to make nano-composite, structural materials. These nanostructured materials may be used to make semiconductor devices, microcomputer parts, and integrated circuit components.

    The three main characteristics of nano-diamonds powders include their compact size, large surface area, high adsorption capacities, and low weight. These properties make them attractive materials for diverse applications such as electronics, medicine manufacturing and machinery manufacturing. They have low defect rates and produce extremely smooth surfaces. These materials are excellent for polishing or electroplating.

    Diamond particles of just 5 nanometers in size make up Nanodiamond Powder. These diamond particles are extremely mechanically and optically strong. This makes them very promising in biomedical applications. These particles are also safe. They are an attractive option in the field of biomedical research for drug delivery.

    For the prevention and treatment of infections, you can use Nanodiamonds as an antibiotic agent. They are an excellent tool for biomedical and scientific research because of their inherent properties. You can also use them in diagnostic and drug delivery. Although there are many challenges, this field continues to move towards promising applications.

    The innovative delivery of advanced cancer therapies has also been made possible by Nanodiamonds. The combination of daunorubicin and DNPs were highly effective in killing the multidrug resistant human leukemia cell K562 (multidrug resistance). Nanodiamonds also delivered Doxorubicin which causes apoptosis and was used to treat brain metastases and malignant brain gliomas.

    The properties of nano-diamond powder

    Nanodiamond is an example of carbon, with a mean particle diameter of 10 nanometers. It is biocompatible and easily penetrates cells. This makes it a great candidate for tissue scaffolds, diagnostic probes, and antiviral agents. This electrode also exhibits excellent electrochemical qualities, such as a narrow potential window and low background current. Nanodiamond electrodes are a great choice for medical diagnosis.

    The most common and widely-used nanopowder, diamond nanopowder, is among the most versatile. This nanopowder is widely used for electronics, jewelry and coatings that resist erosion. Nanodiamond exhibits excellent hardness, wear resistance, and lubrication. Nanodiamond has no toxic properties and is safe to be used in polishing, oiling, and other technical areas. The chemical and physical characteristics of Nanodiamond are different from traditional carbon material.

    Because of its widespread use in polishing formulations, the market for nanodiamond dust is likely to grow in coming years. Nanodiamond is safe and biocompatible. It is possible to make it commercially by detonating trinitrotoluene. A solid fuel, such as TNT, is burnt in closed containers, creating nanodiamond-shaped crystals.

    Nanodiamonds have a small size that can penetrate viruses and bacteria. Nanodiamonds have this property, which makes them very useful in the prevention of infection. Nanodiamonds particles are compatible with existing drug delivery systems.

    Nanodiamonds can be very tiny particles, ranging in size between 0.5 and 50 nm. The average particle size of these particles is about 5 nm. You can form them into larger aggregates. The nanodiamonds then get electroplated onto a substrate for increased hardness, wear resistance and durability.

    Nanodiamond properties depend on how dense and charged they are. They are susceptible to oxidation as well as surface density. The type and location of the edges, as well the imperfections, will affect the surface density.

    The preparation of nano-diamond powder

    Nano diamonds are small, crystalline particles. They are able to develop their euhedral patterns even when heated. The size of these crystals can increase from just a few nanometers up to half a micrometer. SAED analysis revealed only single diamond crystals in the samples. However, high resolution imaging showed that the samples did not contain graphite/amorphous-carbon phases. A new technique has been developed to prepare nanodiamond particles.

    Nanodiamond is made by the high-pressure and high temperature decompositions of graphitic C3N4. The result is an extremely pure form of diamond. These Nanodiamond crystals are almost single-crystalline monodispersed grains. The unique method does not need size classification, detonation, or post-surface treatment.

    Nanodiamonds are antibacterial, meaning they stop or end bacterial growth. These nanodiamonds can be used to deliver drugs. It is unclear how drugs are absorbed onto nanodiamonds, but it is evident that they have special properties that can be used as a drug delivery vehicle.

    For the creation of high-purity, nanodiamond products, it is crucial to use a new way of manufacturing nanodiamond particles. They can be used by many industries. You can use them in the manufacture of reinforced resins. You can use them to increase the mechanical strength or wear resistance of many materials.

    It is possible to prepare nano-diamond powders using inexpensive, simple equipment. They are useful in biosensors and biochip industries. One example is a single-dispersed nanodiamond solution for cell labeling.

    Nanodiamond preparation is a complex process that requires care to ensure purity and quality of dispersion. Nanodiamonds have many properties that can be improved by the preparation process. You can alter the nanodiamond's surface with functional groups. This improves its properties. These functional groups can be used to add fluorescent or biodegradable nanodiamonds. They can also be used in bioimaging as well drug delivery and biosensing.

    Nano diamond powder preparation has many advantages over conventional methods for synthesising NDs. First, the nanoparticles that result from this procedure are not contaminated with metallic impurities. This method does not need to be purified with harsh chemicals.

    Price of nano-diamond powder

    Price of nano diamond powder is affected by several factors. This includes the cost of production, shipping costs, as well as the global situation. Price will also be affected by market demand and supply. Tanki New Materials Co. Ltd. is here to help you make wise purchasing decisions. Offers customized services tailored to their needs.

    The most popular and versatile nanopowder, diamond nanopowder, is widely used. You can use it for everything from jewelry manufacturing and electronics manufacturing. This can be used to create erosion-resistant coatings. It is composed of single-crystal diamants in sizes between five and 500 nanometers.

    To make lithium-ion batteries' negative electrodes, nano-diamond can be combined with graphene and carbon black. For the production of an electrode, nanodiamond powder can be combined with graphene or carbon black. After drying in the vacuum oven at 120 DEG C, the powder can be cut into desired shapes.

    Nanodiamond films are very similar to Nanodiamond Powder. These powders can also be used to make biofuels, and for industrial purposes. The polar groups of these compounds are helpful in controlling adhesion. This is crucial in biomedical fields. Nanodiamonds offer a promising alternative resource.

    These nano-diamonds can be used for therapeutic drugs, nucleic acids, and imaging agents. These nano-diamonds can be used to perform bio-sensing. You can use them as drugs delivery vehicles. This makes them ideal materials for a variety of applications from electronics to medical devices.

    Nano Diamond Powder Price

    Price is affected by many things, such as the demand and supply in the market and industry trends. Economic activity. Unexpected events.
    You can email us to request a quote for the latest price of nano diamond powder. (brad@ihpa.net)

    Nano Diamond Powder Supplier

    Technology Co. Ltd. (), is a respected supplier and manufacturer of nanodiamond products with more than 12 years' experience. All of our products can be shipped worldwide.

    You can contact me if you're looking for nano-diamond powder of high quality. Get in touch You can also send us an inquiry. (brad@ihpa.net)

    2023-03-01

    MAX Phase

    MAX Special Ceramics Material Niobium Aluminum Carbide Nb2AlC Powder

    About Niobium Aluminum Carbide Nb2AlC Powder:
    Max phase ceramics is a new type of conductive ceramic material that can be processed, and Nb2AlC Powder is one of them. This kind of ceramics contains more than 60 ternary carbides or nitRIDE compounds.M represents the front metal element of the transition group; A represents group elements, mainly elements of the third group and the fourth group; X is for carbon or nitrogen. Niobium aluminum carbide (NbC) is a new type of ceramic material, which combines many advantages of metal and ceramic.Nb2AlC powder has excellent mechanical properties at high temperatures. Biomedicalmaterialsprogram is a trusted global Niobium Aluminum Carbide Nb2AlC Powder supplier. Feel free to send an inquiry about the latest price of Niobium Aluminum Carbide at any time.

    Product Performance of Niobium Aluminum Carbide Nb2AlC Powder :

    Niobium aluminum carbide Nb2AlC powder has high strength and elastic modulus, high thermal conductivity and electrical conductivity, and good workability.


    Technical Parameter of Niobium Aluminum Carbide Nb2AlC Powder :

    Product NameMFPurityParticle SizeMolecular WeightMelting PointColor
    Niobium Aluminum CarbideNb2AlC99%1-5umN/AN/AGray Black

     

    How is Niobium Aluminum Carbide Nb2AlC Powder Produced? 
    1. Weighing niobium powder, aluminum powder and toner, and then ball-milling mixed powder;
    2. the mixed powder into the graphite boat, and then into the reactor, and filled with inert gas, ignition, self-spreading reaction, cooling after crushing, sifting, drying to get Nb2AlC ceramic powder. The method has the advantages of fast reaction speed, short synthesis time, low energy consumption, low cost and high production efficiency, and the obtained Nb2Alc ceramic powder has high purity. The Nb2Alc ceramic powder obtained by the invention can be used in aviation, aerospace, electronic industry and nuclear industry, etc.
     
    Applications of Niobium Aluminum Carbide Nb2AlC Powder:
    MAX has been widely used in nanometer adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields.Nb2AlC powder can be used for energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc.

     

    Storage Condition of Niobium Aluminum Carbide Nb2AlC Powder :
    The damp reunion will affect Nb2AlC powder dispersion performance and using effects, therefore, niobium aluminum carbide Nb2AlC powder should be sealed in vacuum packing and stored in the cool and dry room, niobium aluminum carbide can not be exposure to air. In addition, the Nb2AlC powder should be avoided under stress.

    Packing & Shipping of Niobium Aluminum Carbide Nb2AlC Powder :
    We have many different kinds of packing which depend on the niobium aluminum carbide Nb2AlC powder quantity.
    Niobium aluminum carbide Nb2AlC powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
    Niobium aluminum carbide Nb2AlC powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.






     

    Niobium Aluminum Carbide Powder Properties

    Other NamesNiobium carbide/Aluminum carbide MXene,
    Advanced Max/Mxene Powder, Nb:Al:C, Nb2AlC powder
    CAS No.60687-94-7
    Compound FormulaNb2AlC
    Molecular Weight224.8
    AppearanceGray to Black Powder
    Melting PointN/A
    Boiling PointN/A
    Density6.43 g/cm3
    Solubility in H2ON/A
    Thermal Expansion8.7-8.9 × 10-6 K-1
      
      

    Niobium Aluminum Carbide Powder Health & Safety Information

    Signal WordN/A
    Hazard StatementsN/A
    Hazard CodesN/A
    Risk CodesN/A
    Safety StatementsN/A
    Transport InformationN/A

    Inquiry us

    2023-02-04

    Lithium Battery Anode

    Lithium Battery Anode Material 99.95% Modified Artificial Graphite Powder 16S

    Performance of Anode Material 99.95% Modified Artificial Graphite Powder 16S :

    Modified artificial graphite powder 16S has the characteristics of high-energy density, long-lifetime, low expansion, excellent processing performance.


    Technical Parameter of Anode Material 99.95% Modified Artificial Graphite Powder 16S :

    Product NumberParticle Size
    ( D50 )    		TAPSSAGram CapacityCompacted density
     Tr-16S16um0.8±0.1 g/cc1.5±0.5 m2/g360-365 mAH/g1.68-1.72

     

    Application of Anode Material 99.95% Modified Artificial Graphite Powder 16S :

    Modified artificial graphite powder 16S is specially used in 3C digital, EV.


    Storage Condition of Anode Material 99.95% Modified Artificial Graphite Powder 16S :

    a. Modified artificial graphite powder 16S should be stored in a dry, ventilated place without other sources of pollution (recommended: temperature ≤45℃, humidity ≤85%);
    b. Modified synthetic graphite powder 16S stacking should be neat and tidy, and the production batch number, production date and other signs should be clearly identifiable;
    c. Handle with care during transportation to avoid damage to the packaging; modified artificial graphite powder 16S that leak out of the package should not be returned to the box.


    Packing & Shipping of Anode Material 99.95% Modified Artificial Graphite Powder 16S :
    We have many different kinds of packing which depends on the modified artificial graphite powder 16S quantity.
    Modified artificial graphite powder 16S packing: 1kg/bag or 5kg/bag, 25kg/carton, or as your request.
    Modified artificial graphite powder 16S shipping: could be shipped out by sea , by air, by express as soon as possible once payment receipt.





     

    Artificial Graphite Powder Properties

    Other NamesModified artificial graphite powder 16S, graphite, msds,
    CAS No.N/A
    Compound FormulaN/A
    Molecular WeightN/A
    AppearanceN/A
    Melting PointN/A
    Solubility in waterN/A
    Density1.68-1.72
    Purity99.95%
    Particle Size16um 
    Boling pointN/A
    Specific HeatN/A
    Thermal ConductivityN/A
    Thermal ExpansionN/A
    Young's ModulusN/A
    Exact MassN/A
    Monoisotopic MassN/A
      
      

    Artificial Graphite 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

    Inquiry us

    2023-02-03

    MAX Phase

    MAX Special Ceramics Material Titanium Aluminum Nitride Ti4AlN3 Powder

    Titanium Aluminum Nitride Ti4AlN3 Powder has high strength and elastic modulus, high thermal conductivity and electrical conductivity, and good workability.


    Technical Parameter of Titanium Aluminum Nitride Ti4AlN3 Powder :

    Product NameMFPurityParticle SizeMolecular WeightMelting PointColor
    Titanium Aluminum NitrideTi4AlN399%200mesh,
    400mesh    		N/AN/AGray Black

     

    How is Titanium Aluminum Nitride Ti4AlN3 Powder Produced? 
    1. Weighing niobium powder, aluminum powder and toner, and then ball-milling mixed powder;

    2. The mixed powder into the graphite boat, and then into the reactor, and filled with inert gas, ignition, self-spreading reaction, cooling after crushing, sifting, drying to get Ti4AlN3 ceramic powder. The method has the advantages of fast reaction speed, short synthesis time, low energy consumption, low cost and high production efficiency, and the obtained Ti4AlN3 ceramic powder has high purity. The Ti4AlN3 ceramic powder obtained by the invention can be used in aviation, aerospace, electronic industry and nuclear industry, etc.
     
    Applications of Titanium Aluminum Nitride Ti4AlN3 Powder:
    MAX has been widely used in nanometer adsorption, biosensors, ion screening, catalysis, lithium-ion batteries, supercapacitors, lubrication and many other fields.Ti4AlN3 powder can be used for energy storage, catalysis, analytical chemistry, mechanics, adsorption, biology, microelectronics, sensors, etc.

     

    Storage Condition of Titanium Aluminum Nitride Ti4AlN3 Powder :
    The damp reunion will affect Ti4AlN3 powder dispersion performance and using effects, therefore, Titanium Aluminum Nitride Ti4AlN3 Powder should be sealed in vacuum packing and stored in the cool and dry room, titanium aluminum nitride can not be exposure to air. In addition, the Ti4AlN3 powder should be avoided under stress.

    Packing & Shipping of Titanium Aluminum Nitride Ti4AlN3 Powder :
    We have many different kinds of packing which depend on the Titanium Aluminum Nitride Ti4AlN3 Powder quantity.
    Titanium Aluminum Nitride Ti4AlN3 Powder packing: vacuum packing, 100g, 500g or 1kg/bag, 25kg/barrel, or as your request.
    Titanium Aluminum Nitride Ti4AlN3 Powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.






     

    Titanium Aluminum Nitride Powder Properties

    Other NamesTitanium carbide/Aluminum nitride MXene,
    Advanced Max/Mxene Powder, Ti:Al:N, Ti4AlN3 powder
    CAS No.N/A
    Compound FormulaTi4AlN3
    Molecular Weight260.449
    AppearanceGray to Black Powder
    Melting PointN/A
    Boiling PointN/A
    DensityN/A
    Solubility in H2ON/A
    Thermal ExpansionN/A
      
      

    Titanium Aluminum Nitride Powder Health & Safety Information

    Signal WordN/A
    Hazard StatementsN/A
    Hazard CodesN/A
    Risk CodesN/A
    Safety StatementsN/A
    Transport InformationN/A

    Inquiry us

    2023-02-01

  • ← Previous
  • 1
  • 2
  • 3
  • 4
  • 5
  • Next →

    • Products Category


    Innovative materials

    Cement foaming agent, also known as foaming concrete foaming agent, refers to an admixture that can reduce the surface tension of liquid and generate a large amount of uniform and stable foam for the production of foamed concrete. Foaming agent is a kind of substance that can make its aqueous...

    Molecular sieves

    Molecular sieve is a synthetic hydrated aluminosilicate (zeolite) or natural zeolite with the function of screening molecules.Zeolite molecular sieve has a complex and changeable structure and a unique pore system, and is a catalyst with excellent performance. Uses of Molecular Sieves Molecular sieve is mainly caused by molecular attraction, which...

    Surfactant

    Any substance that dissolves in water and can significantly reduce the surface energy of water is called a surface active agent (surface active agent, SAA) or surface active substance. Surfactants reduce the surface tension of water by adsorbing at the gas-liquid two-phase interface, and can also reduce the oil-water interfacial...

    Lithium Battery Anode

    Lithium battery anode material are generally divided into carbon-based negative electrodes and non-carbon-based negative electrodes. Among them, carbon-based negative electrodes can be divided into graphite, hard carbon, and soft carbon negative electrodes. Graphite can be divided into artificial graphite, natural graphite, and mesocarbon microspheres; non-carbon The negative electrode includes lithium...

    MAX Phase

    The MAX phase is a new type of ternary layered compound, which is composed of three elements, M, A and X, and its general chemical formula is MN+1AXN, (wherein, M: pre-transition metal, A: Group A element, X: Carbon or nitrogen, N=1, 2, 3…), both metal materials (excellent electrical and thermal...

    Metal Alloy

    Alloy is a mixture with metallic properties synthesized by two or more metals and metals or non-metals by certain methods. Generally obtained by fusion into a homogeneous liquid and solidification. According to the number of constituent elements, it can be divided into binary alloys, ternary alloys and multi-element alloys. Two...

    Nanoparticles

    Nanometer-scale structural materials are referred to as nanometer materials for short, which refer to the size of their structural units ranging from 1 nanometer to 100 nanometers. Since its size is close to the coherence length of electrons, its properties are greatly changed due to the self-organization brought about by...

    Stearic Acid Series

    Stearic acid, namely octadecanoic acid, molecular formula C18H36O2, is produced by the hydrolysis of oil and is mainly used to produce stearate. Dissolve each gram in 21ml of ethanol, 5ml of benzene, 2ml of chloroform or 6ml of carbon tetrachloride. Applications of Stearic acid Mainly used in the production of...

    Selenide Powder

    There is a typical antagonism between selenium and metals, and selenium with different valences can combine with metal ions to form metal selenides. Metal selenides have attracted much attention in recent years due to their excellent optoelectronic and catalytic properties, and have potential applications in solar cells, pollutant degradation, and...

    Telluride Powder

    Tellurium is a typical scattered element. Tellurium and its compounds are widely used in metallurgy, chemical industry, electronics, energy, medicine and health and other industries.Telluride is a compound of tellurium with a metal or a non-metal. Such as the representative of the telluride with a non-metal is hydrogen telluride, which...

    Silicide Powder

    Binary compounds formed by certain metals (such as lithium, calcium, magnesium, iron, chromium, etc.) and some non-metals (such as boron, etc.) and silicon. Generally crystalline, with metallic luster, hard and high melting point. Uses of Silicide Powder Metal silicide as an electric heating element is one of its earliest applications....

    Nitride Powder

    Nitride is similar to metal in appearance, hardness and conductivity, and generally has high hardness, high melting point, stable chemical properties, and electrical conductivity. Such as titanium nitride, vanadium nitride, zirconium nitride, tantalum nitride, etc. is hard and refractory, and has the characteristics of chemical corrosion resistance and high temperature...

    Carbide powder

    Carbide powder is a binary compound formed by carbon (other than hydrogen) which is smaller or similar to electronegativity. Carbides have a higher melting point. Most carbides are carbon and metal at high temperatures. The next reaction is obtained. The properties of the element are divided into metal carbides and...

    Oxide Powder

    Oxide powder is the chemical compound solid powder contains one oxygen and another element, such as metal oxides, metal oxides are a chemical compound formed between metals, specifically cations such as Na, K, Li, etc., and oxygen. These compounds require at least of two elements, as compounds do, and always...

    Sulfide Powder

    Sulfide powder refers to the chemical compounds powder with large families of inorganic and organic compounds, e.g. copper sulfide, Zinc sulfide, molybdenum disulfide, tungsten disulfide powders and so on. Sulfides and their similar compounds include a series of metals and semi-metallic elements combined with S, Se, Te, As, Sb, Bi...

    3D Printing Powder

    3D Printing powder are metal powders that are reduced to fine particles. 3D printing metal powder are the the preliminary base materials for most 3D printing processes that produce metallic parts. 3D printing, also known as additive manufacturing (AM), is the manufacturing of parts and products in a layer-by-layer fashion....

    Boride Powder

    Metallic boride powders are very unique but functional new ceramic materials.The boride powders have many advantages such as high melting point, high hardness, good electrical conductivity and thermal conductivity. Therefore, boride powder can be used as heat-resistant and hard materials that can be accurately processed by electric discharge machining. Such...

    Elementary

    Elementary substance is a pure chemical substance that consists of atoms belonging to a single chemical element, it is widely used in many industrial fields. Are you looking for high purity & quality elementary substance such as hafnium diboride powder, zirconium diboride powder, aluminum diboride powder, magnesium diboride powder? Biomedicalmaterialsprogram...

    Resent Products