1) Material: stainless steel. 2) Coated with Teflon, Platinum and Chrome. 3) Customized brand and OEM are welcome. 4) Sharpness parameter of the blade is below 15N . Color - Blue Function - Shaving Packaging - Standard export carton
Titanium dioxide, also known as Titanium (IV) or Titania, is a simple inorganic compound produced as a pure white powder with the molecular formula TiO2. Generally, it is available in two main crystal forms, which are rutile and anatase. Anatase is economical, easily dispersed in water-based systems, and a perfect opacifier. Untreated titanium dioxide (anatase) has TiO2 with a refractive index of 2.55. However, it is not commonly used in exterior (weather-exposed) paint applications except for highway paints. Application: Paint and Coating Industry, Paper Industry, Cosmetics Industry, Food Industry, Plastic Industry etc. Packing: 25 kg PP Bags
Dolomite mineral is a double carbonate of calcium and magnesium and it exhibits a granular structure. It has high natural whiteness and it's noted for their ease of dispersion. Its use improves properties such as weather ability, reduces shrinkage, fissure development and water absorption. Natural Dolomite Powder is of White Colour and is used as Filler in many applications such as Soap & Detergent, Paints, Ceramics and many other Industries. Applications: - Soap & Detergent Leather Cloth Industry Cable Industries Rigid PVC Pipes Iron, Steel, and Ferro-Alloys Industries Paints, Inks, Powder Coating Ceramic Industry Rubber Industry Glass Industry Available Mesh Size: - 100 TO 700 MESH Custom sizes and Material of required specifications can be made in case of Bulk and Regular orders. BRIGHTNESS: - 92 TO 96 AS PER REQUIREMENT Index Compound Result 1. Silica - (SiO2) 10.41 % 2. Alumina - (AI2O3) 01.15 % 3. Iron - (Fe2O3) 00.21 % 4. Titanium - (TiO2) 00.18 % 5. Calcium - (Cao) 30.02 % 6. Magnesium - (MgO) 18.41 % 7. Soda - (Na2O) 00.34 % 8. Potash - (K2O) 00.07 % 9. Loss on Ignition - (LOI) 38.91 %
Mixed-metal Coated Titanium Anodes for Trivalent Chromium Plating is a material used as an anode in an electrochemical reaction, and it is usually made of pure titanium or titanium alloy. During the electrochemical reaction, Mixed-metal Coated Titanium Anodes for Trivalent Chromium Plating absorb electrons and are oxidized, forming an oxide coating on its surface, commonly known as titanium anodic oxide (TAO). Titanium anodized layer has many useful properties, such as high hardness, excellent corrosion resistance, wear resistance, etc., which makes it widely used in many applications. Among them, the application of coated titanium anode is particularly prominent. Parameter Substrate material: titanium Grade 1, titanium Grade 2 Dimensions: customer drawing welcomed Shape: Plate/Tube/Rod/Mesh shape MMO coating: Ir-Ta coating Coating thickness: 0.2-12 m Temperature:
MMO Coated Titanium Anodes Mixed metal oxide coatings on titanium substrates are widely used as anodes in various electrochemical processes, such as chlorination, oxygen production, electrolytic deposition of metals and cathodic protection in the chlor-alkali industry. The application of materials with high conductivity and long-term stability in electrochemical environments is considered to be one of the main goals of electrochemical cell engineering. Metal oxides such as RuO2 and IrO2, which have high electrical conductivity and electrochemical activity, have received much attention as electrocatalysts in the electrochemical industry. In order to further improve the stability of these oxides, other oxides such as TiO2, Ta2O5 and ZrO2 have been added to these active oxides. Anodic chloride and oxygen precipitation are the most important reactions in the application of these materials. Oxygen precipitation is the most important reaction in electrochemical processes such as water electrolysis, electrolytic deposition of metals and cathodic protection. In addition, this reaction is unavoidable in many anodic processes. RuO2-based coatings (e.g. pure RuO2 and RuO2-TiO2) are very stable to the chloride precipitation reaction. However, they are unstable to anodic oxygen precipitation and are subject to severe corrosion in acidic media. IrO2 is more stable for the oxygen precipitation reaction, but its oxygen precipitation electrocatalytic activity is lower. Therefore, due to the favourable properties of the two oxides, a mixture of IrO2 and RuO2 could be a suitable electrocatalyst for the oxygen revolution. Mixing two or more different oxides can affect the electrocatalytic performance of the oxides by changing the microstructure, surface composition and morphology of the electrocatalyst components. In addition, the surface composition, morphology and microstructure of mixed oxide coatings are not homogeneous and may be affected by preparation factors and active oxide content. Ruthenium mixed oxide coated titanium anodes are generally used in environments such as hydrochloric acid, electrolytic seawater and electrolytic brine environments. Fields of application Electrolytic production of non-ferrous metals, electrolysis of chlorinated salts, electrolysis of salt/seawater, metal foil manufacturing, electrochemical treatment of metal foil surfaces, disinfection, electrolytic extraction and recovery of non-ferrous metals, organic electrolysis, cathodic protection, electrodialysis, production of acidic and alkaline ionised water, treatment of industrial wastewater.
Porous titanium sheets are highly desirable for use as the porous transport layer (PTL) in polymer electrolyte membrane (PEM) water electrolyzers. However, the passivation of titanium leads to an increase in surface contact resistance, thereby negatively affecting the performance of the electrolyzer. To address this issue and ensure long-term operation, a common approach is to apply platinum or gold coatings on titanium-based PTLs. Parameters Material: Sintered Porous Titanium Sheet Coating: Platinum (Pt) The thickness of platinum: 1 micron Porosity: Customizable, commonly between 30% and 40% Pore Size: 10 microns Size: 46*46* 2mm Features Enhanced Conductivity: The platinum coating on sintered porous titanium sheets provides excellent electrical conductivity, facilitating efficient electron transfer during electrochemical reactions. Durability and Corrosion Resistance: Titanium's inherent corrosion resistance, combined with the protective platinum coating, ensures prolonged electrode lifespan, even in aggressive chemical environments. High Surface Area: The porous structure of the titanium sheets offers a large surface area, enabling more active sites for electrochemical reactions and enhancing cell efficiency. Customizable Pore Size: The pore size of sintered porous titanium sheets can be tailored to specific applications, allowing for optimized mass transport and improved electrolyte flow. Applications Chlor-Alkali Industry Water Treatment Fuel Cells Electrosynthesis
Platinum-coated porous titanium plates are essential components used in electrolyzers for diverse industrial applications such as hydrogen production, water treatment, and energy storage. These plates play a critical role in facilitating efficient and reliable electrochemical reactions. Specifications: Material: porous Titanium plate Coating: Platinum (usually 0.2-5 microns thick) Porosity: 30%-40% Thickness: 0.6-20 mm Dimensions: Customizable based on specific electrolyzer requirements Surface Area: Varies based on design and application, usually 50-100 cm�² Why is platinum used as a coating material? Platinum is highly resistant to corrosion and possesses excellent catalytic properties, making it ideal for enhancing electrochemical reactions. It ensures long-term stability and efficiency of the electrode, resulting in improved performance and durability of the electrolyzer. What are the advantages of using porous titanium plates? The porous structure of titanium plates increases the available surface area for reactions, allowing for greater contact with the electrolyte. This enhances mass transfer and promotes efficient gas diffusion, leading to faster reaction rates and improved overall electrolyzer performance. Can the dimensions of the plates be customized? Yes, the dimensions of platinum-coated porous titanium plates can be tailored to suit specific electrolyzer designs and requirements. Customization allows for compatibility with different system sizes and configurations.
Platinum-coated porous titanium plates are essential components used in electrolyzers for diverse industrial applications such as hydrogen production, water treatment, and energy storage. These plates play a critical role in facilitating efficient and reliable electrochemical reactions. Specifications: Material: porous Titanium plate Coating: Platinum (usually 0.2-5 microns thick) Porosity: 30%-40% Thickness: 0.6-20 mm Dimensions: Customizable based on specific electrolyzer requirements Surface Area: Varies based on design and application, usually 50-100 cm�² Features: Catalytic Efficiency: The platinum coating on the porous titanium plates provides exceptional catalytic activity, enabling rapid and efficient electrochemical reactions. This results in improved performance and higher reaction rates, contributing to the overall efficiency of the electrolyzer. Corrosion Resistance: Titanium is inherently resistant to corrosion, and the platinum coating further enhances this property, ensuring the longevity and stability of the plates even in harsh operating conditions. This resistance to corrosion guarantees the durability and reliability of the electrolyzer system. Enhanced Mass Transfer: The controlled porosity of the titanium plates facilitates effective gas diffusion and reactant accessibility. This feature enhances mass transfer, allowing for faster reaction kinetics and improved overall electrolyzer performance. Customizable Dimensions: Platinum-coated porous titanium plates can be customized to meet specific electrolyzer design requirements. The dimensions can be tailored to fit different system sizes and configurations, ensuring compatibility and versatility in various applications. Application: Hydrogen Production Water Treatment Energy Storage
Mixed-metal Coated Titanium Anodes for Trivalent Chromium Plating is a material used as an anode in an electrochemical reaction, and it is usually made of pure titanium or a titanium alloy. During the electrochemical reaction, Mixed-metal Coated Titanium Anodes for Trivalent Chromium Plating absorbs electrons and is oxidized, forming an oxide coating on its surface, commonly known as titanium anodic oxide (TAO). Parameter Substrate material: titanium Grade 1, titanium Grade 2 Dimensions: customer drawing welcomed Shape: Plate/Tube/Rod/Mesh shape MMO coating: Ir-Ta coating Coating thickness: 0.2-12m Temperature:
Absolute Black, Black Galaxy, Black Pearl, Black Forest, Impala Black, Titanium Black Steel Grey, Mudgal Grey, Sadarali Grey, Sira Grey Tan Brown, Coffee Brown, Cats Eye, Colombo Juprana, Colonial Gold, Ghiblee Gold, Golden Fantasy, Adoni Brown, Bash Praadiso Chida White, Moon White, Amba White, River White, Alaska White, China White Himalayan Blue, Indian Juprana, Indian Mahgoany, Ivory Fantasy, Ivory Gold, Ivory Pearl, Lady Dream, Lavender Blue, Madurai Gold, Pradiso, Red Multi, Ruby Red, Sapphire Blue, Sapphire Brown, Shivakasi Gold ALASKA GOLD, BALCK MARQUINO, Black Wave, Chima Pink, Coin Black, Copper Silk, Crystal Blue, Crystal Yellow, Desert Brown, Fish Black, Golden Pearl, Ice Blue, J White, Jhansi Red, Kota Kasta, Lakha Red, Rajasthan Black S White, Nosra Green, P White, Platinum White
Dolomite mineral is a double carbonate of calcium and magnesium and it exhibits a granular structure. It has high natural whiteness and it is noted for their ease of dispersion. Its use improves properties such as weather ability, reduces shrinkage, fissure development and water absorption. Natural Dolomite Powder is of White Colour and is used as Filler in many applications such as Soap & Detergent, Paints, Ceramics and many other Industries. Soap & Detergent Leather Cloth Industry Cable Industries Rigid PVC Pipes Iron, Steel, and Ferro-Alloys Industries Paints, Inks, Powder Coating Ceramic Industry Rubber Industry Glass Industry Custom sizes and Material of required specifications can be made in case of Bulk and Regular orders. BRIGHTNESS: - 92 TO 96 AS PER REQUIREMENT index Compound Result 1. Silica - (SiO2) 10.41 % 2. Alumina - (AI2O3) 01.15 % 3. Iron - (Fe2O3) 00.21 % 4. Titanium - (TiO2) 00.18 % 5. Calcium - (Cao) 30.02 % 6. Magnesium - (MgO) 18.41 % 7. Soda - (Na2O) 00.34 % 8. Potash - (K2O) 00.07 % 9. Loss on Ignition - (LOI) 38.91 %
titanium oxide CAS No.13463-67-7 Other Names titanium dioxide MF TiO2 EINECS No. 236-675-5 Place of Origin China Grade Standard Electron Grade, Industrial Grade, Reagent Grade Purity 99.9%-99.99% Appearance White powder Application Coating,Plastics, Adhesives and Rubber Package 25kg/bag Particle size 5nm-500nm Sample Available Density 3,9g/cm3 Melting point 1840 C Boiling Point 2900 C EINECS 236-675-5 Molecular Weight 79.8658
[Alkaline Water Ionizer] ALKAMEDI offers a variety of product groups and series designed to cater to consumers\' needs and make their home circumstances and purposes more convenient and accessible. AMS 4100 & AMS 4100S are ALKAMEDI ionizer models designed for standard-level grade performance. These models feature an electrolysis chamber equipped with 7 platinum-coated titanium electrode plates, ensuring the production of superior alkaline water at 3 different levels, as well as 3 levels of acidic water and purified water.
[Alkaline Water Ionizer] ALKAMEDI offers a variety of product groups and series designed to cater to consumers' needs and make their home circumstances and purposes more convenient and accessible. AMS 4100 & AMS 4100S are ALKAMEDI�¢??s ionizer models designed for standard-level grade performance. These models feature an electrolysis chamber equipped with 7 platinum-coated titanium electrode plates, ensuring the production of superior alkaline water at 3 different levels, as well as 3 levels of acidic water and purified water.
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility. Ferric oxide 59.60% Aluminum Oxide 13.90% Sulfur dioxide 11.86% Magnesium oxide 6.60% Silicon dioxide 4.20% Calcium oxide 2.70% Manganese(II) oxide 0.39% Nickel oxide 0.14% Chromic oxide 0.14% copper (II) oxide 0.08% Titanium dioxide 0.07% Potassium oxide 0.06% Strontium oxide 0.05% Vanadium oxide 0.03% Zinc Oxide 0.03%
This by-product derives from the iron industries and its a valuable material for melting and manufacturing of ferrock for construction purposes. As a leading supplier of eco-conscious materials, we take pride in offering a diverse range of recycled materials, including cryolite, carbon anodes, carbon dust, bath material, steel scrap, fine iron scrap, rebars and more. With a strong commitment to sustainability, our materials are engineered to meet the demanding needs of industrial projects while promoting environmental responsibility. Ferric oxide 59.60% Aluminum Oxide 13.90% Sulfur dioxide 11.86% Magnesium oxide 6.60% Silicon dioxide 4.20% Calcium oxide 2.70% Manganese(II) oxide 0.39% Nickel oxide 0.14% Chromic oxide 0.14% copper (II) oxide 0.08% Titanium dioxide 0.07% Potassium oxide 0.06% Strontium oxide 0.05% Vanadium oxide 0.03% Zinc Oxide 0.03%
Lithopone is a white, inorganic pigment composed of a mixture of barium sulfate (BaSO4) and zinc sulfide (ZnS). It is widely used in the production of paints, coatings, and printing inks due to its exceptional opacity and brightness. Lithopone enhances the covering power of these products, making it especially valuable in applications where whiteness and opacity are critical, such as in the manufacturing of high-quality paints and paper. It also contributes to corrosion resistance and durability in coatings. Despite its historical use, its production has declined in recent years due to environmental concerns related to the presence of barium compounds, with many industries opting for alternative white pigments like titanium dioxide. Nonetheless, lithopone's unique properties continue to make it relevant in certain niche applications within the paint and coatings industry.
Platinum-coated titanium bipolar plates are essential components in fuel cells, where titanium serves as a sturdy base material and platinum is applied as a thin layer to enhance electrical conductivity and catalytic activity. These plates play a vital role in facilitating electrochemical reactions within fuel cells, particularly in proton exchange membrane fuel cells (PEMFCs), by providing a durable and efficient platform for electricity generation. The combination of titanium's corrosion resistance and platinum's catalytic properties ensures improved performance, longevity, and reliability in harsh electrochemical environments, making them integral to the efficiency of fuel cell systems. Specifications: Material: pure titanium, titanium alloy, or others. Size: 54*54*20mm, customized according to the drawings Coating: Platinum Coating thickness: 1 micron Coating area: All sides Type: Etching / Chemical Machining, Other Machining Services Surface: Smooth and flat surface Advantages of platinum-coated titanium bipolar plates in fuel cell applications: 1. Enhanced Catalyst Activity: The platinum coating on the titanium bipolar plates serves as a catalyst, promoting the necessary electrochemical reactions within the fuel cell. This leads to increased efficiency and improved overall performance of the fuel cell system. 2. Reduced Overpotential: Platinum-coated titanium bipolar plates help lower the overpotential required for various electrochemical reactions, which translates to more efficient conversion of chemical energy into electrical energy within the fuel cell. 3. Improved Heat Dissipation: The thermal conductivity of titanium combined with the catalytic properties of platinum allows for effective heat dissipation during fuel cell operation, contributing to the overall thermal management of the system. 4. Longevity and Durability: The corrosion-resistant nature of titanium, augmented by the protective platinum coating, enhances the durability and longevity of the bipolar plates, resulting in a longer service life for the fuel cell system. 5.Environmental Benefits: By enabling the efficient conversion of chemical energy into electricity, platinum-coated titanium bipolar plates contribute to the reduction of greenhouse gas emissions and help promote environmentally friendly energy generation.
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Product description Material:Gr1 Titanium as substrate, Ru-Ir, Ir-Ta,Pt-Ir and lead dioxide as coating Coating Thickness:0.5-5 micron Parameter:1. Current density
