CAS No: 10043-11-5 ENINEC No: 233--136-6 MF:BN Grade Standard:Industrial, Eletron Purity:99.8%, 99% Appearance: White Powder Application: Ceramic material, thermal spraying Size:80-100nm, 0.8um, 1um, 5um Form:Hexagon crystal Note: We can supply different size products of High Temperature Strength Boron Nitride powder according to client's requirements.
CAS No: 1314-35-8 ENINEC No: 215-231-4 MF: WO3 Grade Standard:Industrial, Eletron, Reagent Purity:99.9% Appearance: Yellow, blue, purple Powder Application: Metal tungsten material, hard alloy, cutting tools Size:50nm Shape:Column Note: We can supply different size products of insulation coating nano wo3 according to client's requirements.
CAS No: 25583-20-4 ENINEC No: 234-345-4 MF: TiN Grade Standard:Industrial, Electron, Reagent Purity:99.95% Appearance: Black Powder Application:Refractory, anti-friction material Size:30-50nm, 1-3um Quality:High Note: We can supply different size products of Titanium Nitride nanopowder according to client's requirements.
CASTING POWDER
Sintered metal filters are a type of porous filter made by sintering metal powder particles together. Sintering is a process that involves heating metal powder to a temperature just below its melting point, allowing the particles to fuse together and form a solid structure. The resulting filter material is highly porous with a controlled pore size distribution that can filter out particles of a specific size. The pore size of sintered metal filters can range from a few microns to several hundred microns, depending on the required filtration level. The pore size is controlled during the manufacturing process to ensure consistent and precise filtration. Sintered metal filters provide high filtration efficiency due to their precise pore size distribution. They can filter out particles and contaminants of a specific size, making them suitable for a wide range of applications where filtration accuracy is critical. Additionally, sintered metal filters are easy to clean and can be reused multiple times, making them a cost-effective solution in many applications. Products Features Highly porous structure: Sintered metal filters have a highly porous structure that allows for efficient filtration of liquids and gases. The porosity is controlled during the manufacturing process to ensure consistent and precise filtration. Precise pore size distribution: Sintered metal filters offer a precise pore size distribution, which allows for accurate filtration of particles and contaminants of a specific size. This makes them suitable for a wide range of applications where filtration accuracy is critical. High strength and durability: Sintered metal filters are made from metal powders that are sintered at high temperatures, resulting in a strong and durable filter material. They can withstand high temperatures, corrosive environments, and high-pressure applications. Chemical resistance: Sintered metal filters are available in various metals, each with different chemical properties. This allows for customization of the filter material to suit specific chemical environments and applications. Easy to clean and maintain: Sintered metal filters can be easily cleaned and reused multiple times, making them a cost-effective filtration solution. They can be cleaned by backwashing, ultrasonic cleaning, or chemical cleaning, depending on the application requirements. Products Applications Sintered metal filters are used in a wide range of industries and applications, including oil and gas, chemical processing, pharmaceuticals, food and beverage, and water treatment. They are often used to filter out impurities, contaminants, and solids from liquids and gases. The filters can be made from various metals, including stainless steel, bronze, nickel, and titanium, depending on the specific application requirements.
Product Introduction The stainless steel filter is a type of metal porous filter element made from industrial metal powder, typically 304 or 316L. The raw material is formed through cold isostatic pressing and sintered under high temperature and vacuum conditions. The resulting filter element contains countless micropores that are curved, crisscrossed, and highly precise, allowing for deep-level precision filtration through pressurization. The stainless steel filter is a highly advanced type of metal porous filter element that is widely used across many industries, including petrochemical, coal chemical, pharmaceutical, water treatment, food, metallurgical, and gas purification industries. Product parameters Outer diameter: 20~100mm Length: 100 1500mm (more than 1500mm can be welded) Filtration accuracy: 0.5um 50um Porosity: 35-45% Features Here are four key features of the stainless steel filter: 1. Precise and uniform porosity 2. Excellent mechanical properties 3. High-temperature resistance 4. Easy to regenerate Application With its unique porous technology, stainless steel filters are widely used across a range of industries, including the petrochemical, coal chemical, pharmaceutical, water treatment, food, metallurgical, and gas purification fields. The filter is a new type of filtration and separation technology material that can be used for various applications, such as terminal filtration of petroleum products, fly ash filtration in the coal chemical industry, impurity removal and filtration of raw materials in the pharmaceutical and chemical industry, water purification, and filtration after ozone sterilization in the water treatment industry, and clarification and filtration of milk, beverages, beer, mineral water, and vegetable oil in the food industry.
Product Name : Fe-Ni-Co Alloy Nano powder Pack Size: 10 gram, 50gram, 100gam ,250gram, 500 gram Product Name Fe-Ni-Co Alloy Nanopowder Cas No 7439-89-6 / 7440-02-0/ 7440-48-4 Appearance Powder Purity 99.9% APS 60-70 nm (Can be Customized) Formula Fe-Ni-Co Product no. SCM-NM-130/22 Description :- Fernico describe a family of metal alloys made primarily of iron, nickel and cobalt. The family includes Kovar, FerNiCo I, FerNiCo II, and Dumet. The name is made up of the chemical symbols of its constituent three elements. Dumet is a portmanteau of dual and metal, because it is a heterogeneous alloy, usually fabricated in the form of a wire with an alloy core and a copper cladding. These alloys possess the properties of electrical conductivity, minimal oxidation and formation of porous surfaces at working temperatures of glass and thermal coefficients of expansion which match glass closely. These requirements allow the alloys to be used in glass seals, such that the seal does not crack, fracture or leak with changes in temperature. Related Product : Ni-Ti 60 nm, Ni:Ti/50:50 Sn-Cu 40-100 nm, SN:CU/9:1 Sn-Cu 40-100 nm, SN:CU/1:9 Sn-Cu 40-100 nm, SN:CU/92:8 Fe-Ni-Co 40-100nm, Fe:Ni:Co/55:28:17 Fe-Ni 40-100 nm, Fe:Ni/5:5 Fe-Ni 40-100 nm, Fe:Ni/2:8 Fe-Cr-Co 40-100nm, Fe:Cr:Co/64:25:11 Cu-Zn 40nm Cu:Zn/5:5 Cu-Zn 40-100 nm, Cu:Zn/5:5 Cu-Zn 40-100 nm, Cu:Zn/6:4 Ag-Cu Nanopowder, 99.9%,
Product Name : Cu-In-S Alloy Nanopowder Pack Size: 10 gram, 50gram, 100gam ,250gram, 500 gram Product Name Cu-In-S Alloy Nanopowder Cas No 7440-50-8 / 7440-74-6/ 7704-34-9 Appearance Powder Purity 99% APS 60-70 nm (Can be Customized) Formula Cu-In-S Product no. SCM-NM-137/22 Description :- Cu-In-S Alloy are generally irreversible and also require high overpotentials to run. In fact, the nanoparticles have the ability to make the redox reactions reversible and to lower the overpotentials when applied to the sensors. A polyacrylamide hydrogel with copper nanoparticles inside is able to determine glucose levels in a sample added to the gel. As phenylboronic acid groups on the hydrogel polymers bind the glucose molecules, the gel becomes swollen. As a result, the copper nanoparticles move apart, changing how incident light is diffracted by the gel. As the glucose levels decrease, the color of gel changes from red to orange to yellow to green. One of the examples is a glucose sensor. With the use of copper nanoparticles, the sensor does not require any enzyme and therefore has no need to deal with enzyme degradation and denaturation. As described, depending on the level of glucose, the nanoparticles in the sensor diffract the incident light at a different angle. Consequently, the resulting diffracted light gives a different color based on the level of glucose. In fact, the nanoparticles enable the sensor to be more stable at high temperatures and varying pH, and more resistant to toxic chemicals. Moreover, using nanoparticles, native amino acids can be detected. A copper nanoparticle-plated screen-printed carbon electrode functions as a stable and effective sensing system for all 20 amino acid detection Related Product : Ni-Ti 60 nm, Ni:Ti/50:50 Sn-Cu 40-100 nm, SN:CU/9:1 Sn-Cu 40-100 nm, SN:CU/1:9 Sn-Cu 40-100 nm, SN:CU/92:8 Fe-Ni-Co 40-100nm, Fe:Ni:Co/55:28:17 Fe-Ni 40-100 nm, Fe:Ni/5:5 Fe-Ni 40-100 nm, Fe:Ni/2:8 Fe-Cr-Co 40-100nm, Fe:Cr:Co/64:25:11 Cu-Zn 40nm Cu:Zn/5:5 Cu-Zn 40-100 nm, Cu:Zn/5:5 Cu-Zn 40-100 nm, Cu:Zn/6:4 Ag-Cu Nanopowder, 99.9%,
Product Name : Cu-In Alloy Nano powder Pack Size: 10 gram, 50gram, 100gam ,250gram, 500 gram Product Name Cu-In Alloy Nanopowder Cas No 7440-50-8 / 7440-74-6 Appearance Powder Purity 99% APS 60-70 nm (Can be Customized) Formula Cu-In Product no. SCM-NM-135/22 Description :- Copper nanoparticles with great catalytic activities can be applied to biosensors and electrochemical sensors. Redox reactions utilized in those sensors are generally irreversible and also require high overpotentials (more energy) to run. In fact, the nanoparticles have the ability to make the redox reactions reversible and to lower the overpotentials when applied to the sensors. A polyacrylamide hydrogel with copper nanoparticles inside is able to determine glucose levels in a sample added to the gel. As phenylboronic acid groups on the hydrogel polymers bind the glucose molecules, the gel becomes swollen. As a result, the copper nanoparticles move apart, changing how incident light is diffracted by the gel. As the glucose levels decrease, the color of gel changes from red to orange to yellow to green. One of the examples is a glucose sensor. With the use of copper nanoparticles, the sensor does not require any enzyme and therefore has no need to deal with enzyme degradation and denaturation. As described in Figure 3, depending on the level of glucose, the nanoparticles in the sensor diffract the incident light at a different angle. Consequently, the resulting diffracted light gives a different color based on the level of glucose. In fact, the nanoparticles enable the sensor to be more stable at high temperatures and varying pH, and more resistant to toxic chemicals. Moreover, using nanoparticles, native amino acids can be detected. A copper nanoparticle-plated screen-printed carbon electrode functions as a stable and effective sensing system for all 20 amino acid detection Related Product : Ni-Ti 60 nm, Ni:Ti/50:50 Sn-Cu 40-100 nm, SN:CU/9:1 Sn-Cu 40-100 nm, SN:CU/1:9 Sn-Cu 40-100 nm, SN:CU/92:8 Fe-Ni-Co 40-100nm, Fe:Ni:Co/55:28:17 Fe-Ni 40-100 nm, Fe:Ni/5:5 Fe-Ni 40-100 nm, Fe:Ni/2:8 Fe-Cr-Co 40-100nm, Fe:Cr:Co/64:25:11 Cu-Zn 40nm Cu:Zn/5:5 Cu-Zn 40-100 nm, Cu:Zn/5:5 Cu-Zn 40-100 nm, Cu:Zn/6:4 Ag-Cu Nanopowder, 99.9%,
Product Name : Cu Zn Alloy Nano powder Pack Size: 10 gram, 50gram, 100gam ,250gram, 500 gram Product Name Cu Zn Alloy Nanopowder Cas No 7440-50-8 / 7440-66-6 Appearance Powder Purity 99% APS 60-70 nm (Can be Customized) Formula Cu Zn Product no. SCM-NM-132/22 Description :- copper couple is an alloy of zinc and copper that is employed as a reagent in organic synthesis. The couple has been widely applied as a reagent in other reactions requiring activated zinc metal. copper couple does not refer to a rigorously defined chemical structure or alloy composition. The couple may contain varying proportions of copper and zinc; the zinc content is typically greater than 90%, although an alloy containing similar proportions of zinc and copper is used in some cases. The couple is frequently prepared as a darkly-colored powder and is slurried in an ethereal solvent prior to being used in slight excess relative to the substrate. Activation of zinc by copper is essential to the couple s utility, but the origin of this effect is poorly documented. It is speculated that copper enhances reactivity of zinc at the surface of the alloy. Related Product : Ni-Ti 60 nm, Ni:Ti/50:50 Sn-Cu 40-100 nm, SN:CU/9:1 Sn-Cu 40-100 nm, SN:CU/1:9 Sn-Cu 40-100 nm, SN:CU/92:8 Fe-Ni-Co 40-100nm, Fe:Ni:Co/55:28:17 Fe-Ni 40-100 nm, Fe:Ni/5:5 Fe-Ni 40-100 nm, Fe:Ni/2:8 Fe-Cr-Co 40-100nm, Fe:Cr:Co/64:25:11 Cu-Zn 40nm Cu:Zn/5:5 Cu-Zn 40-100 nm, Cu:Zn/5:5 Cu-Zn 40-100 nm, Cu:Zn/6:4 Ag-Cu Nanopowder, 99.9%,
Product Name : Cobalt Nano powder Pack Size: 10 gram, 50gram, 100gam ,250gram, 500 gram Product Name Cobalt Nanopowder Cas No 7440-48-4 Appearance Powder Purity 99.9% APS 60-70 nm (Can be Customized) Formula Co Product no. SCM-NM-106/22 Molar Weight 58.9 Description :- Electromagnetic-wave absorption; Electromagnetic-wave radiation shielding for cellar phones; Ferrofluids; High density magnetic storage; Magnetic inks; Magnetic toner in xerograph; Contrast agents in magnetic resonance imaging. Metal nanopowder should be gently placed and avoided violent vibration and friction. Metal nanopowder should be prevented from moisture, heat, impact and sunlight. Related Products: Co Cobalt (Co) Powder, 99.95% (1, 7, 8, 10, 15um) Co Cobalt, 99.9%, 1-3um Cobalt (Co) Nanopowder / Nanoparticle (Co, 99.8%, 28 nm, partially passivated, metal basis) Cobalt (Co) Nanopowder / Nanoparticle (Co, 99.8%, 28 nm, carbon coated, metal basis) Fe-Ni-Co Alloy Nanopowder / Nanoparticle, 99.9%, 40 nm-100 nm, Fe:Ni:Co/55:28:17 Fe-Cr-Co Alloy Nanopowder / Nanoparticle, 99.9%, 40 nm-100nm, Fe:Cr:Co/64:25:11 Ni-Cr-Co Nanopowder / Nanoparticle, 99.9%,
Product Name : Cr2GaN MAX Phase Powder Pack Size: 10 gram, 50gram, 100gam ,250gram, 500 gram Product Name Cr2GaN MAX Phase Powder Cas No N/A Appreance Gray to Black Purity 98% APS 40-5m Formula Cr2GaN Product no. SCM-MX-107/22 Related Product: Cr2GaC MAX Phase Powder Fe doped Ti3AlC2 MXene Hf21nc MAX Phase Powder Related Information :- Storage Conditions: Airtight Sealed, Avoid light and keep dry at room temperature. Please contact us for customization & Price inquiry
We alumina powder around 85% with white colour
Non-ferrous metals products. Metal powders. Rare earth metals. Al Farid Wood and Metal Trading Company specialize in non-ferrous metal products and rare earth metals is able to satisfy the broadest needs of the Clients. We offer a wide range of products from the following metals and alloys: Niobium, Rhenium, Nickel, Wolfram, Tin, Nichrome, Vanadium, Aluminum, Brass, Copper, Titanium, Molybdenum, Tantalum, Magnesium, Zirconium The product line consists of the most necessary details: sheet, bar, wire, mesh, profile, pipe, foil, plate. We offer various sizes, thickness, length and type of alloy, and we have a large selection of metal powders with different properties and parameters. Our special offer is high-purity rare earth metals: Tellurium, Gallium, Germanium, Selenium, Indium, Dysprosium, Erbium, Lutetium, Thulium, Gadolinium, Terbium, Neodymium, Europium, Ytterbium, Yttrium, Lanthanum, Rubidium, Samarium, Scandium. More info www.tradingwm.ae
Beryllium metal powder Beryllium powder
Powder metallurgy is a manufacturing process where various powder metals such as stainless steel, brass, copper, iron and bronze are compressed and then sintered (heated) to increase adhesion between particles. Material blending allows for a certain amount of customization of material properties to produce desired characteristics suitable for a particular application. The part is formed by compressing the powder metal, or blended metal powders, in accurately formed dies and punches in special types of hydraulic presses. The compressed pieces are then sintered in an atmosphere controlled furnace at high temperatures, causing the metal powder particles to be metallurgically bonded together. This remarkably greenand environmentally friendly process uses 99% of the material thats in the mold, producing harmless bi-products of nitrogen and hydrogen. Optional operations include sizing or coining. Supplementary heat treatments may also be employed to increase material strength. Other optional finishing steps include milling & machining, grinding, drilling & tapping, reaming & other hole sizing, plating, and cu, plastic or oil impregnating. The result is high density parts comparable to wrought products of the sam e composition and surpassing plastic and die cast material properties. Lower density will, of course, result in lower physical properties; however, these parts can be used in filter or air flow applications. -
Ultrafine Products Product description Nickel-copper powder; Superfine nickel-copper powder; Ultrafine nickel-copper alloy powder; Ultrafine nickel coated copper powder; Superfine nickel coated copper powder; Product specification0.06-0.6μm Product Explanation: Molecular formula: Ni-Cu Molecular weight: Appearance: Black powder Product use Silicone rubber filled with electrically conductive material, thermal conducting filler material,a friction material, electromagnetic shield material, catalyst, industrial electronics, electrically and thermally conductive material, electrically and thermally conductive filler material replace of silver. Packing, storage and shipping Aluminum foil packaging, each bag of 2kg, 10kg, or 20kg. Seal packaging. Store in a cool & dry place. Keep it away from oxidant.
Nanometer Products Product description: Nano nickel-copper powder; Nickel-copper nanopowder; Nano nickel-copper alloy powder. Product specification:30~60nm Molecular formula:Ni-Cu Appearance:Black powder Product use: Silicone rubber filled with conductive material, thermal conducting filler material, anti- friction material, electromagnetic shield material, catalyst, the electronics industry, conductive and heat conduction material. Packing, storage and shipping: Aluminum foil packaging, 1kg, 5kg. Seal packaging. Store in a cool &dry place. Do not contact with oxidizing agent.
Ultrafine Products Product description: Copper powder; Ultrafine copper powder; Superfine copper powder;Nano-copper powder. CAS7440-50-8 Product specification:0.3m; 1.5m Molecular formula: Cu Molecular weight: 63.55 Appearance: Purple-brown or brown powder Product use: Used for microelectronic devices and multilayer ceramic capacitor terminal manufacturing. Also be used as catalyst for carbon dioxide and hydrogen forming methanol in the reaction process and used as lubricants, pharmaceutical, electroplating, and paint industries. Packing, storage and shipping: Aluminum foil packaging, each bag of 2kg, 10kg, or 20kg. Seal packaging. Store in a cool & dry place. Keep it away from oxidant.
Nano Pesticide Technical Material Product description: Supported nano TBCC; Supported nano copper oxychloride; Supported nano basic cupric chloride; Supported nano Tri basic copper chloride. CAS1332-40-7 Product specification:Diameter 60-80nm Product introduction: The supported nano raw pesticide is specially developed for copper preparations, including copper chloride and carrier. The carrier was added when processed copper preparations and no need to add again in the post processing of copper compounds.The shape is powder, with nano material characteristics of macro effect, quantum tunneling effect and surface effect, having advantage of stronger bactericidal power, higher suspensibility, better adhesion and longer pesticide effect. Combining with nano technology can greatly improve the quality of copper preparations. Product Explanation: Molecular formula:CuCl2.3Cu(OH)2;CuCl2.XCuO.4H2O;Cu2(OH)3Cl and carrier Appearance:Green or Light green powder. Insoluble in water and organic solvents. Stable in the air, soluble in acid and ammonia. Product use:For nano wettable powder synthesis,no need to smash and process. Packing, storage and shipping: Kraft or Paper barrel sealed package.Store in a cool &dry place.