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    Tungsten Disulfide WS2 as Battery Material

    The introduction of sodium batteries is expected help alleviate current limitations of lithium resource scarcity on rapid development of new energy industry.
    The lithium-ion battery is an essential raw material for the development of energy devices and achieving the goal to be carbon neutral. However, it's difficult at the moment to make the capital investments in the raw material ends to meet rapidly increasing energy demand. Additionally, there is a clear structural imbalance in the investment made in the lithium electric sector chain which leads to rising prices for lithium raw materials.

    sodium cells entered the field of vision. As an energy material, sodium is abundant in nature. It also has high capacity and high rate performance which can compensate for the limitations of lithium-ion cells in the energy storage field. Despite the fact that sodium battery is more expensive than lithium battery because of its smaller supply chain, sodium battery with mature technology will still be an effective replacement for lithium battery. In fact, it can even be used to develop new energy fields with lithium batteries.

    Tungsten Disulfide will also benefit from increased market replenishment as a potential material for batteries.
    Tungsten dioxide is a layered metal with remarkable surface effects, electron fluidity, thermochemical stability, and high densities of electron states. It is widely used in sodium and lithium storage. As an example, nanocomposites that are used as conductive additions or graphene-composite as anode for batteries can have a higher specific capacity and discharge rate than single components WS2 or C.

    Graphene, a novel anode material, has been a focus of energy storage researchers for many years. It is a versatile anode material with many advantages such as high electrical and thermal conductivity, large specific surface area and so forth. Although it is an energy storage medium, it does not compensate for its own flaws. For example, the material is susceptible to structural collapse during a long cycle which can lead to a severe decline in battery power. WS2 and graphene nanomaterials have high thermochemical stability, which can be used to compensate for the graphene's weaknesses.
    The best choice for batteries materials is generally tungsten disulfide.

    Technology Co. Ltd. is a trusted global supplier and manufacturer of chemicals and Nanomaterials. They have over 12 years experience in producing super high-quality chemicals, such as silicon powder.
    You can contact us to request high-quality /tungsten disulfide powder and /graphene powder. (brad@ihpa.net)


    The Applications of AlMgB14 Powder

    Overview of AlMgB14 Pulver
    Aluminum Boride or Al3Mg3B56 The compound of aluminum, magnesium, and boron, also known as BAM is commonly known. Although it is known by its molecular formula AlMgB14, its chemical structure is closer to Al0.75Mg0.75B14. It is a wear-resistant ceramic alloy with a very low sliding friction coefficient. A record 0.04 was achieved in the AlMgB14–TiB2 unlubricated composite material, and 0.02 for the AlMgB14–TiB2 lubricated composite material. In 1970, BAM reported the discovery. It is an orthogonal structure and each cell has four B12 icosahedral units. This superhard material's thermal expansion coefficient is comparable to that of concrete and steel.
    AlMgB14 aluminum/magnesium-boride material has a better abrasion resist than diamond and is a novel anti-degradation product. AlMgB14's density is 2.66g/cm3, which compares to other superhard materials such as diamond and cubic-boron nitride. It is also less reactive than carbon steel, stainless and titanium alloys, and is highly thermal stable.
    Aluminum Magnesium Boride BAM AlMgB14 Powder
    What are the applications of AlMgB14 Pulver?
    BAM is available commercially, and more research is underway to find potential uses. BAM, or BAM+ TiB2, can be applied to pistons, seals, and vanes to increase wear resistance and reduce friction. Energy consumption will be reduced by reducing friction. BAM can also apply to cutting tools. Reducing friction will decrease the force required to cut objects, increase the tool's lifespan, and increase the speed of cutting. A 2-to-3 micron thick coating can improve efficiency and reduce tool wear.
    The research area of superhard materials is dominated by Ternary Boride AlMgB14 powder. It has received a lot of attention from researchers at home as well as abroad over the past years. AlMgB14 superhard metal is an alternative to traditional metastable materials such as diamond or cubic boron nuitride. This superhard material has high hardness and low density with low friction coefficient. It also has good thermoelectric and thermal stability.
    AlMgB14 aluminum/magnesium-boride material has a better abrasion resist than diamond and is a novel anti-degradation product. AlMgB14's density is 2.66g/cm3. This is lower than most superhard materials, such as diamond and cubic-boron nitride. It is also resistant to carbon steel, stainless and titanium alloys up to 1300°C. It is also highly thermal stable.
    AlMgB14 aluminum–magnesium boreide has a higher electrical conductivity than most other superhard materials. It is practically equivalent to polysilicon. AlMgB14 has a low price that is between 5 and 10 times those of cubic boron nuitride or diamond. AlMgB14's excellent properties make it not only wearable.
    You can use traditional skills, like cutting and protective coating, in advanced scientific areas such as photodetectors, photodetectors, neutronmasks, micromachines and key aerospace components.
    The principal supplier of AlMgB14 powder
    Tech Co., Ltd. () is a professional Boride 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


    The application status and development direction of graphite in lithium batteries

    graphite: an ideal anode materials Natural graphite made from carbonaceous material organic origin under high temperatures It is a mixture of steel gray and black grey with semi-metallicluster. It is a hexagonal crystal structure. It features a hexagonal layered structure with high temperature resistance, heat conductivity and heat conduction. , Lubrication and plasticity.

    Graphite is an older negative electrode material. Graphite is a more desirable negative electrode material than carbon materials. Its conductivity, crystallinity, and good layered structure are all better than those of other carbon materials.

    Modifications: Optimize anode material performance

    Graphite Negative Electrodes generally use natural flake graphite. But there are a few drawbacks.

    (1) Flake graphite has a large surface area which has a greater influence on the first charge of the negative electrode and its discharge efficiency.
    (2) The graphite layer structure determines that Li+ cannot penetrate the material's end and diffuse slowly into the particles. Flake graphite has an anisotropy that makes the Li+ diffusion path long and uneven. This causes a low specific ability.
    (3) The graphite's layer spacing is too small. This increases Li+'s diffusion resistance, but also makes it less efficient at delivering high rates of charge. Li+ is easy for graphite to form lithium dendrites and deposit it on the graphite's surface. This can pose serious safety hazards.

    Natural graphite can be modified to address these issues using technologies such as surface oxidation and surface fluorination. After taking into account cost and performance, industrial graphite modification is mainly done using carbon coating. Modified natural graphite is a commercially available material with a specific capacity between 340 and370 mA*h/g. This has a coulombic efficiency in excess of 93% in the first week. The DOD cycle time of over 1,000 times can also be used to supply small electronic products. Specific requirements for battery performance.

    Innovation: Tap the Potential of Graphite Applications

    People are continuously aiming to improve the performance of lithium-ion batteries with the rapid development in new energy vehicles and other industries. This results in a higher graphite-anode requirement.

    Graphite concentrate is able to be further processed to make graphite products. These include graphene (spheroidized graphite), flexible graphite (fluorinated graphite), nuclear graphite or silicon-impregnated graphite), graphene (spheroidized graphite), expandable graphite(expheroidized graphite), flexible graphite (flexible graphite), fluorinated graphite and nuclear graphite) This will allow graphite to be used in lithium batteries at a higher level. Graphene is a good conductor and can help reduce volume expansion in electrode materials. This will greatly increase the power battery's performance. Graphene is commonly used in lithium-ion's negative and positive electrodes. Current collectors, separators and conductive additives are all examples of graphene. The future market opportunities are very broad, so it is the center of current research. Spherical graphite features good electrical conductivity and high crystallinity. It is used to replace negative electrode materials in the manufacture of lithium ion batteries at home as well as abroad.

    Tech Co., Ltd. is a graphite supplier that has more than 12 years of experience in chemical products development and research. We accept credit cards, T/T and Paypal payments. We will ship goods overseas via FedEx, DHL and by air or sea to our customers.
    Send an inquiry if you're looking for titanium diboride powder of high quality.


    How amazing is graphene?

    What's graphene Graphene can be described as a new material that is composed of a single layer made up carbon atoms, which are packed tightly together to form a hexagonal honeycomb network. Graphene is an allotrope of carbon and a two-dimensional material.

    Graphene only has 0.142 nanometers molecular bond length and 0.335 micrometers crystal plane spacing. It has four atoms of size, making it much smaller than a bacteria.
    Graphene has been the thinnest known compound. It is one atom in thickness. It is also one atom thick.

    Humans and graphene
    Since 1948, graphene was found in nature. It was hard to separate graphene form the monolayer structure at the time. The graphene was all clumped together.
    Graphene, therefore, was considered non-existent for a very long time.
    Scientists Konstantin Voselov (University of Manchester) discovered how to isolate graphene in 2004. The scientists discovered that graphite sheets made from highly-oriented, pyrolytic graphite could be easily separated by attaching them to special tape and then tearing it apart.
    This can be repeated over and over, resulting in thinner sheets. Eventually, graphene is a special type of carbon atoms. Andrei Geim, Konstantin Novoselov received the Nobel Prize for Graphene Discovery.

    Graphene The king material --
    When graphene became known, it changed the face of scientific research all over the globe. One gram graphene will cover the area of a standard football field, as it is the thinnest known material.
    Graphene is also very good at electrical and thermal properties. Pure monolayer graphene, which is defect-free, has a high thermal conductivity at 5300W/Mk, the highest known carbon material.
    Graphene is also very good at conducting electricity. Graphene, which has a carrier mobility value of 15,000m2/(Vs at room temperatures), is 10 times more than silicon, the most widely used material.
    The arrangement of carbon atoms inside graphene is like barbed wire. This arrangement gives graphene unique flexibility. It makes it even more difficult. The graphene's unique flexibility is due to the honeycomb and barbed wire structures created by carbon atoms. Each carbon atom is also perpendicular the orbital, which allows for large bonds to penetrate atoms.

    Graphene applications
    The discovery graphene has opened scientists' eyes to the possibility of movement and action of particles. It has also made our lives more interesting.

    These new energy batteries represent the first steps towards graphene tech. The lithium battery is currently the most common type of battery. While the lithium battery has the capacity to store a lot of electric power for us, its drawback is that it wears too quickly and can be damaged by repeated charging and discharges.
    The graphene material can greatly increase the charging efficiency and capacity of batteries. Additionally, it plays a significant role in prolonging battery life. A graphene tinoxid layer will be used as the anode for a lithium-ion battery. The battery will last longer once it is charged.
    Graphene is a good choice for batteries that last longer and have a higher capacity.

    Because graphene has soft properties, it could be used to create flexible material. The flexible display is one of the most iconic examples.
    The flexible transparent displays produced by the South Korean Institute were made using layers of graphene, fiberglass polyester sheets and other materials. While the project is still in the development phase and has not yet been launched on the market, the project staff believes that flexible transparent displays made of graphene could one day replace "bricks", mobile phones. The phones can be folded up like silly putty.

    Graphene is also used to protect our environment, especially in desalination.
    The channel is just 0.9 nanometers wide when water interacts with graphene. Molecules smaller in size can pass through the channel without difficulty, but larger molecules will get stuck. Graphene can be used to remove large molecules of salt from seawater.

    Graphene's unique properties and excellent properties have led to many achievements in many scientific fields.

    Technology Co. Ltd. is a trusted global supplier and manufacturer of chemicals and Nanomaterials. They have over 12 years experience in producing super high-quality chemicals, such as silicon powder.
    Send us an inquiry if you're looking for high-quality graphene. (brad@ihpa.net)


    Nano silica Supplier

    What is Nano Silica Nano silica is a form of inorganic chemical materials. Amorphous white powder that is non-toxic and tasteless. It also has a flocculent quasi-granular structure.
    Stable, non-soluble in water, acid, (except for hydrofluoric), and organic solvents. Soluble in alkali, hydrofluoric, and alkali. You can increase the strength, aging resistance, and chemical resistance of other material by using its exceptional properties like light, electricity and force. Si-O–Si bonds are what determine SiO2's chemical stability. This bond is gaining more popularity in the material industry due to its exceptional properties such as being low-priced, resistant to high temperatures, corrosion resistance and good insulation.

    Silica Nanoparticles, which are inorganic and non-metallic organic materials, have small sizes and a large surface area. This material is non-toxic, tasteless, and free of pollution. It has high strength, stability, and low cost. A transmission electron microscope test revealed that the nano-material has a flocculent and reticulate quasiparticle structure. Silica nanoparticles have a size range of a few nanometers up to several hundred of nanometers. The surface electron distribution, molecular arrangement and other characteristics of silica particles are quite different from macroscopic material. Many of the major characteristics of nanoparticles include light, electricity and heat as well as sound, magneticsm, and many others.

    Why is Nano Silica Useful?
    Paint and ink - Thickening, Thixotropy, Anti-Settlement, Increase the Hardness of the Coating, Scratch Resistance, and Other Functions
    Coating: Increase fluidity and anticaking performance
    Plastics, fibers, films: Reinforced, toughened, wear-resistant.
    Adhesive agents: Reinforcement and thickening.
    polish: High-precision Polishing of Aluminum Alloy, Sapphire, Glass, Silicon Wafer, and Other Materials
    Cement: Enhancement.
    The size of a textile.
    Anticaking agent To prevent the base powder from drying out, to avoid caking and to maintain good flow performance.
    Defoamer is characterized by excellent hydrophobicity. It also disperses well, which enhances the defoaming capability and increases efficiency.
    Rubber, Strengthening the filler and improving the material's mechanical properties.

    The use of nanosilica is also possible in ceramics, papermaking as well, and for catalysts, polishing, battery production, among other things.

    Nano silica 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 Silica Nanoparticles pricing. (brad@ihpa.net)

    Nano silica Supplier
    Technology Co. Ltd. (), is a respected Nano silica manufacturer, and Nano silica provider. It has over twelve years' experience. All of our products can be shipped worldwide.

    Contact Us to receive a quote if you need high-quality Nucleica. (brad@ihpa.net)


    Titanium diboride: the New Raw Material for Industrial Ceramics

    Titanium Diboride Pulp Titanium Diboride Puffer (TiB2), is a nonoxide ceramic. It's a great candidate for high temperature structural applications due to its outstanding conductivity and resistance to acids and alkali. Momentive produces it using a continuous chemical procedure. The powder is highly purified. It's a tough material, resistant to corrosion, with a melting temperature of more than 1000 degrees Celsius.

    TiB2 refers to a nonoxide ceramic.
    Titanium diboride can be described as a gray-colored, ceramic powder. It's a very hard material that is resistant to wear and heat. This makes it ideal for wear parts and armor. This material also exhibits excellent electrical conductivity, and thermal conductivity. This material can be found in many industries.

    From the reaction of titanium and carbon, titanium diboride has a chemical composition. This powder can be either grey or black in colour. It is the sixth most melting point. It is a ceramic material with many desirable properties that can be used as solar thermal absorbers.

    TiB2's flexure is less than its compression and tension, while it is stronger. The main factors that determine this property are its microstructure, chemical composition and microstructure. TiB2 has a grain size of between 5 mm to 10 mm. Micro cracks closing reduces hardness.

    It has exceptional mechanical and thermal characteristics, which attracts a lot attention for aerospace and other refractory uses. Boron carbide, a non-oxide ceramic material with excellent mechanical characteristics is also available. The material can be used to make tools and personal armor, as well as for neutron absorbent materials that are found in nuclear reactors.

    You can make high-temperature alloys using titanium diboride. TiB2 alloys with other ceramics increase strength and fracture toughness. This material can typically be found in bulk monolithic form through classical Hot-Pressing. This process is possible with either lab-made or commercial powders. You can make it using Self-Propagating high-temperature process.

    Common uses of titanium diboride are ceramic sintered pieces, structural applications and composites for cutting tools. Wear parts, armour nozzles, and metallizing vessels are just a few of the other applications. Complex shapes can be made thanks to its high electrical conductivity.

    It conducts electricity.
    Titanium Diboride (or titanium diboride) is a highly hard ceramic compound, made with the elements boron and titanium. It exhibits excellent heat conductivity, conducts electricity well, and resists mechanical erosion. You can use it to make composite ceramic products. It resists corrosion and is suitable for use as an electrode in an electrolytic cell.

    The manufacture of ceramic sintered components and molten metallic crucibles is done with titanium diboride. This can be used to make spark plugs, and aluminum electrolytic cell cathodes. It can also be used in the production of wire drawing and ceramic cutting tools as well as sealing components.

    Titanium Diboride Powder is used to make composite ceramic products. This powder can be hot-pressed and HIP-molded. It can also EDM-fabricated to complex shapes. This metal can be used to make electronic components, and unlike ceramics it is extremely conductive.

    Titanium Diboride, which is made from molten steel, has excellent resistance to corrosion. This makes it an ideal choice for molten crucibles. This can be used to enhance the durability of ceramic components. Titanium Diboride can be described as a hard, elastic material that has a high density and modulus. It also conducts heat well.

    Resistant to acids and alkali.
    Titanium Diboride Pulp has remarkable properties like high hardness, heat conductivity, and resistance to oxidation. It is an excellent option for numerous structural applications. The powder of titanium diboride is also a great choice for ceramic cutting tools, and electric contacts. It is resistant to acid and alkalis, which are some of its best properties.

    Titanium Diboride Powder is very pure, has small particles, uniform distribution, and has a high specific area. Also, this type of titanium dioxide has high thermal and and electrical conductivity. High hardness, high electrical conductivity and low thermal expansion coefficient are some of the other features found in titanium diboride powder. Low Poisson ratios of 0.18 to 20, and low electrical resistivity make titanium diboride powder a good choice. It can also be used for flexible heating applications and as a PTC. It is also safe and efficient.

    Titanium Diboride Powder, a fine-divided powder of titanium is available. This powder is made using an SHS process (shear and deformation). This can remove the oxide contamination of titanium diboride. Reaction between oxides and boronhalide removes oxide contamination.

    Titanium Diboride Powder can be used for many industrial purposes. This powder can be used in various industries as a coating for ceramics, structural materials or in other applications. You can use it to make ceramic sintered pieces. It can also be used for ceramic armor nozzles, metalizing boats and cutting tool composites.

    Titanium Diboride Powder resists acids and alkalis well. The powder can also be used for corrosion studies. TiB2 ex-situ coated may be less effective and exhibit different corrosion behavior than its in-situ counterpart. This is sometimes referred to also as pack boriding.

    It's a suitable material for electroplating.
    Titanium Diboride Pulp is a good candidate material for electroplating due to its high melting points. It can also be used to make vacuum aluminizing devices. It's also a great material to use in extrusion machines and for potted components. You can use it in armor protection materials.

    Titanium Diboride Pulp is an exceptional ceramic material. It can resist oxidation as well as corrosion. It can be used as an aluminum smelter's cathode. You can also use it in liquid metals because of its excellent wetability.

    Titanium Diboride Powder offers many benefits over other materials. The powder can be applied to tools at a higher rate of electrodeposited, which results in an increase in the layer growth by 200 folds. The inconvenience associated with covering complicated-shaped items is also reduced. But, it is only currently used in a limited number of specific applications. They include tools for cutting, wear-resistant coatings, neutron absorbers, and impact-resistant armour.

    A tungsten-coated pure copper alloy can be used to cover parts of irregular shape. It is a high-density and strong bonding coating that can be applied on any part with an irregular shape. The process is very simple and only requires minimal equipment.

    Titanium Diboride powder price
    Price is affected by many things, including market trends, supply and demand, economic activity, unexpected events, and industry trends.
    Send us an enquiry to get the best price for Titanium Diboride powder. (brad@ihpa.net)

    Titanium Diboride Powder Manufacturer
    Technology Co. Ltd. has over 12 years of experience as a high-quality supplier of High Purity graphite powder. All of our products are available for shipment worldwide.
    We can help you find Titanium Diboride Powder. Please contact us to send an inquiry. (brad@ihpa.net)

    Lithium Battery Anode

    Nano Silicon Anode Material Si Powder CAS 7440-21-3

    About Nano Silicon Anode Material Si Powder:
    Silicon is the most promising electrode material for the next generation of lithium-ion batteries, with a specific capacity (3600 mAh/g) about 10 times higher than graphite (372 mAh/g). However, its use is severely limited due to the significant expansion of the material in the loaded (lithified) state (over 300%) and the instability of the solid electrolyte interface layer (SEI). The poor mechanical stability and chemical passivation properties of the silicon electrode make the cyclability of the silicon electrode far from meeting the requirements of the battery system and have inspired a large number of studies and proposals to circumvent these limitations.

    During lithium insertion, the volume of silicon changes so much (~400%) that the silicon breaks and falls off the collector, resulting in a prototype lithium-silicon battery losing most of its capacity in less than 10 charge-discharge cycles. The key to the success of high-capacity lithium-ion batteries is to solve the problem of the capacity and stability of lithium-ion silicon.

    Silicon anode materials show great potential for improving the efficiency and energy storage capacity of lithium-ion batteries. Until recently, their main drawback was surface oxidation passivation, a process that increases impedance and reduces the circularity of the anode. Our high purity silicon anode materials achieve high specific capacity without significantly affecting cycle life. Biomedicalmaterialsprogram is a trusted global Nano Silicon Anode Material Si Powder supplier. Feel free to send an inquiry about the latest price of Silicon Anode Material at any time.

    If you want to know silicon powder price, please send inquiry to sales1@rboschco.com

    Performance of Nano Silicon Anode Material Si Powder :

    Nano silicon anode material (CAS 7440-21-3) has the characteristics of high capacity, high first effect, long cycle, low expansion, excellent processing performance and rate performance, and it matches well with the existing graphite anode system.

    Technical Parameter of Nano Silicon Anode Material Si Powder :

    Product NameMFSSAParticle SizeFirst Discharge CapacityFirst Charge CapacityFirst Discharge Efficiency
    Nano Silicon PowderSi11.36m2/g900nm2348.9 mAH/g2003.6 mAH/g85.3%


    How is Nano Silicon Anode Material Si Powder Produced? 
    A method for forming a silicon powder anode material for a rechargeable battery includes a metal matrix providing not more than 30% silicon, including a silicon structure dispersed therein. The metallic matrix is etched at least partially to at least partially isolate the silicon structure.

    Particles containing a metallic silicon alloy comprising a metallic matrix and a silicon metal powder structure dispersed in the metallic matrix comprising not more than 30wt % of silicon, and

    By removing the metal from the metal-silicon alloy, the metal matrix of the metal-silicon alloy is etched at least partially to form a porous silicon particle comprising a plurality of interconnected structural elements.
    Applications of Nano Silicon Anode Material Si Powder:
    Silicon powder is one of the most promising of the next generation of lithium-ion battery anode materials. Nano-silicon anode materials are used in cylindrical, flexible and aluminum-shell batteries. Our silicon anode powder can be dispersed in the battery solvent while preventing caking. They are designed to paste seamlessly with other battery materials and produce a uniform, stable coating. As such, they are suitable for a range of applications, including lithium-ion batteries, photovoltaics, semiconductors and electronics.

    Storage Condition of Nano Silicon Anode Material Si Powder :

    The damp reunion will affect nano Si powder dispersion performance and using effects, therefore, nano Si should be sealed in vacuum packing and stored in a cool and dry room, the nano Si powder can not be exposure to air. In addition, the Si powder should be avoided under stress.

    Packing & Shipping of Nano Silicon Anode Material Si Powder :
    We have many different kinds of packing which depend on the nano silicon anode Si powder quantity.
    Nano silicon anode Si powder packing: 1kg/bag or 5kg/bag, 25kg/barrel, or as your request.
    Nano silicon anode Si powder shipping: could be shipped out by sea, by air, by express as soon as possible once payment receipt.


    Silicon Si powder Properties

    Other NamesSilicon Si powder, Si, Si powder, nano silicon powder
    CAS No.7440-21-3
    Compound FormulaSi
    Molecular Weight28.08 g/mol
    Appearancebrown, or silvery
    Melting Point1414°C 
    Boiling Point2900°C 
    Electrical Resistivity3-4 microhm-cm @ 0 °C
    Poisson's Ratio0.064 - 0.28
    Specific Heat0.168 Cal/g/K @ 25 °C
    Thermal Conductivity1.49 W/cm/K @ 298.2 K
    Thermal Expansion (25 °C) 2.6 µm·m-1·K-1
    Young's Modulus51-80 GPa
    Exact MassN/A
    Monoisotopic MassN/A

    Silicon Si powder Health & Safety Information

    Safety WarningWarning
    Hazard StatementsH315-H319-H335
    Hazard CodesH228
    Risk Codes11
    Safety Statements16-33-36
    RTECS NumberVW0400000
    Transport InformationUN 1346 4.1/PG 3
    WGK Germany2

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      Highly Efficient Anticorrosive Material Iccp Reference Electrode

      US $ 1.0-5.0 / Piece

      (FOB Price)

      1 Piece (MOQ)

      • Customized: Customized
      • Application: Papermaking, Food, Construction, Ocean, Aerospace, Aviation, Electronics, Metallurgy, Pharmacy, Salt, Chemical, Petroleum
      • Certification: API, ISO, BSI
      • Material: Aluminum Alloy
      • Feature: Insulation
      • Corrosion Rate: 0.001-0.01

      Zinc Alloy Aluminum Alloy Sacrificial Anode for Your Need

      US $ 3.4-4.3 / kg

      (FOB Price)

      5000 kg (MOQ)

      • Application: Marine
      • Zn-Standard: GB/T4950-2021,Dnv,Us-Mil-a-18001j, ASTM B418-73
      • Al-Standard: GB/T4948-2002,Dnv,Norsok, Pl742, Impalloy
      • Packing: Export Pallet/Wooden Square/Wooden Box
      • Standard: ZN-AL-CD Alloy/AL-ZN-IN Alloy
      • Port: Shanghai

      Recommended product from this supplier.

      Solid Rod High Silicon Cast Iron Auxiliary Anode for You Need

      US$ 1-2 / Piece

      (FOB Price)

      1 Piece (MOQ)

      • Standard Specification : GB8491-87 and Sy/T0036-2000
      • Application Range : in Seawater,Fresh Water,Soil
      • Composition : Cast Iron with 14-16% of Silicon
      • Packing : Carton Packing
      • Standard : can improve the performance of the anode material
      • Port : Qingdao

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      Platinum and Niobium Auxiliary Anode, Mmo Anode

      5 Pieces (MOQ)

      • Main Features : Able to Adapt to High Thermal Environment, Strong
      • Material : PT / Nb Composite Anode
      • Operating Environment : in Seawater
      • Operating Current Density a/M2 : Less Than 2000
      • Packing : Meet The Requirement
      • Standard : pt/nb wire

      Recommended product from this supplier.

      High-Quality Lead Silver Alloy Auxiliary Anode

      US$ 3.4-4.3 / kg

      (FOB Price)

      100 kg (MOQ)

      • Customized : Customized
      • Application : Ocean, Metallurgy, Marine
      • Certification : API, ISO, BSI, CE
      • Material : Zinc
      • Feature : Wear Resistant
      • Corrosion Rate : 0.001-0.01

      Recommended product from this supplier.

      Zinc Alloy Sacrificial Anode for Your Need

      US$ 1-2 / Piece

      (FOB Price)

      1 Piece (MOQ)

      • Open Circuit Potential : 1.05~1.09
      • Work Potential : 1.00~1.05
      • Actual Capacitance : 780 a.H/Kg
      • Current Efficiency : 95%
      • Packing : Carton Packing
      • Standard : good self-regulating performance