Advanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise

Product Details
Customization: Available
After-sales Service: on-Line Service
Warranty: 1 Years
Diamond Member Since 2025

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Year of Establishment
2025-04-22
Registered Capital
1.48 Million USD
  • Advanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise
  • Advanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise
  • Advanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise
  • Advanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise
  • Advanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise
  • Advanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise
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Basic Info.

Model NO.
Made-to-order
Oil or Not
Oil Free
Structure
Ultrahigh Vacuum Unit
Exhauster Method
Kinetic Vacuum Pump
Vacuum Degree
High Vacuum
Work Function
Maintain the Pump
Working Conditions
Dry
Feature
No Oil, Low Noise
Condition
New
Transport Package
Wooden Case
Specification
Customized
Trademark
RJ
Origin
Zhengzhou, China

Product Description

Advanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseBrief Introduction:
Dive into the world of advanced materials with Nano Iridium Powder, renowned for being one of the most corrosion-resistant metals on earth. This versatile powder finds its application in critical areas such as aircraft spark plugs, unique iridium alloys, precision syringe needles, and finely balanced knife edges. It's also vital in compass brackets, durable electrical contacts, and iridium crucibles, making it indispensable for advanced technological applications.

Product Name Specifications Application Fields
Nano Nickel Powder Average Particle Size: 30nm-1000nm Used in nickel-chromium/nickel-hydrogen batteries, capacitors, electronics, etc.
Nano Aluminum Powder Average Particle Size: 20nm-1000nm Used as raw material for processing aluminum wires, aluminum plates, electronic components, ceramic metallization, pure copper or aluminum alloy sintered products, and as an additive for precision alloys.
Nano Tungsten Powder Average Particle Size: 50nm-1000nm Used in aerospace alloys, electronic packaging alloys, electrode materials, microelectronic films, sintering aids, protective coatings, gas sensor electrodes, etc.
Nano Tungsten Carbide Powder Average Particle Size: 50nm-400nm Nano tungsten carbide powder imparts many superior properties to hard alloys. It has a melting point of 2860°C±50°C, a boiling point of 6000°C, is insoluble in cold water, highly acid-resistant, and exhibits high hardness and elastic modulus. Tungsten carbide is renowned for its hardness, wear resistance, corrosion resistance, and high-temperature stability.
Nano Silver Powder Average Particle Size: 20nm-400nm Primarily used as conductive filler in conductive coatings, conductive inks, and polymer conductive silver pastes. It is a high-performance conductive filler with excellent oxidation resistance, widely used in electronic pastes, conductive applications in electronics, electromagnetic shielding, and *disinfection.
Nano Titanium Powder Average Particle Size: 20-30nm Titanium is one of the most corrosion-resistant metals. It is mainly used in aircraft spark plugs, titanium alloys, syringe needles, balance knife edges, compass brackets, electrical contacts, and titanium crucibles.
Nano Silicon Carbide Powder Average Particle Size: 30-100nm Mainly used for modifying high-strength nylon, rubber tires, metal surface composite coatings, and high-performance structural ceramics.
Nano Aluminum Nitride Powder Average Particle Size: 10-300nm Widely used to enhance the strength and toughness of various plastics, rubber, and ceramic products. It significantly improves the density, smoothness, thermal fatigue resistance, fracture toughness, creep resistance of ceramics, and the wear resistance of polymer materials.
Carbon Nanotubes Average Tube Diameter: 8-50nm Widely used in anti-static polymer materials, lithium battery conductive pastes, thermal conductive materials, and mechanical reinforcement materials.
Nano Silicon Powder Average Particle Size: 35-100nm Mainly used in aerospace, aviation, electronic semiconductors, chemical industry, metallurgy, insulation, *refractory materials, ceramic raw materials, etc.
Advanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseBrief Introduction:
Embrace the future of materials with Nano Molybdenum Powder, a key raw material pivotal in the production of molybdenum wires, robust molybdenum plates, and high-precision electronic components. It's instrumental in ceramic metallization processes and creating pure molybdenum or molybdenum alloy sintered products. Furthermore, it plays an essential role as a precision alloy additive, enhancing the performance and durability of high-tech applications.
Product Name Specifications Application Fields
Nano Nickel Powder Avg. Particle Size: 30nm-1000nm Used in nickel-cadmium/nickel-metal hydride batteries, capacitors, electronics, etc.
Nano Aluminum Powder Avg. Particle Size: 20nm-1000nm Raw material for aluminum wires, plates, electronic components, ceramic metallization, pure aluminum or aluminum alloy sintered products; also used as additive for precision alloys.
Nano Tungsten Powder Avg. Particle Size: 50nm-1000nm Used in aerospace alloys, electronic packaging alloys, electrode materials, microelectronic thin films, sintering aids, protective coatings, gas sensor electrodes, etc.
Nano Tungsten Carbide Powder Avg. Particle Size: 50nm-400nm Imparts superior properties to hard alloys. Melting point: 2860°C±50°C, boiling point: 6000°C, insoluble in cold water, highly acid-resistant, with high hardness and elastic modulus. Known as "King of Hardness", it features wear resistance, corrosion resistance, and high temperature stability.
Nano Silver Powder Avg. Particle Size: 20nm-400nm Mainly used as conductive filler in conductive coatings, inks, and polymer silver pastes. High-performance conductive material with excellent oxidation resistance, widely used in electronic pastes, conductive applications, EMI shielding, and **disinfection.
Nano Titanium Powder Avg. Particle Size: 20-30nm One of the most corrosion-resistant metals. Mainly used in aircraft spark plugs, titanium alloys, syringe needles, balance knife edges, compass brackets, electrical contacts, and titanium crucibles.
Nano Silicon Carbide Powder Avg. Particle Size: 30-100nm Mainly used for modifying high-strength nylon, rubber tires, metal surface composite coatings, and high-performance structural ceramics.
Nano Aluminum Oxide Powder Avg. Particle Size: 10-300nm Widely used for reinforcing plastics, rubber, and ceramics, significantly improving ceramic density, smoothness, thermal fatigue resistance, fracture toughness, creep resistance, and wear resistance of polymer materials.
Carbon Nanotubes Avg. Tube Diameter: 8-50nm Widely used in anti-static polymers, lithium battery conductive pastes, thermal conductive materials, and mechanical reinforcement applications.
Nano Silicon Powder Avg. Particle Size: 35-100nm Mainly used in aerospace, aviation, electronics/semiconductors, chemical industry, metallurgy, thermal insulation, **refractories, ceramic materials, etc.
Advanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseBrief Introduction:
Tellurium Powder, a dynamic additive, enhances the functionality of semiconductor devices and boosts the efficiency of cooling devices. It is also a vital component in alloy production and chemical raw materials, finding its usage in the cast iron, rubber, and glass industries, ensuring superior quality and performance across various sectors.
Product Name Specifications Application Fields
Selenium Powder Purity: 3N-7N
Particle Size: 100-450 mesh
Gray-black powder
Used as additive in semiconductor devices, cooling devices, alloys, chemical raw materials, and industries including cast iron, rubber, and glass
Selenium Dioxide Purity: 3N-6N
White powder
Mainly used for preparing selenium dioxide single crystals, infrared devices, acousto-optic devices, infrared window materials, electronic component materials, preservatives, and glass coloring agents
Selenium Granules (Borosilicate) Purity: 3N-7N Primarily used for preparing II-VI compound semiconductors, solar cells, thermoelectric conversion elements, cooling elements, gas sensors, thermal sensors, pressure sensors, photosensitive devices, piezoelectric crystals, nuclear radiation detection, and infrared detectors
Grade Chemical Composition
  Te,% Impurities (ppm)
    Si Se Mg Ni Pb Fe Al Cd Ag Sn Cu Zn Ca Sum
Te-05 99.999 1.0 1.0 0.5 0.5 0.4 0.2 0.2 0.2 0.2 0.2 0.2 -- -- 10
Te-06 99.9999 -- 0.1 0.05 0.05 0.05 0.05 0.05 0.05 0.05 0.01 -- 0.01 0.1 1
Te-07 99.99999 -- 0.01 0.005 0.005 0.0
Advanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise

Nano Molybdenum Powder
Applications:
Serves as a crucial raw material in the manufacture of molybdenum wires, sturdy molybdenum plates, electronic components, and is essential for ceramic metallization.
Acts as a base material for crafting pure molybdenum or molybdenum alloy sintered products, providing unmatched performance.
Functions as a significant additive for enhancing precision alloys, ensuring superior strength and stability.

Product Name Specifications Applications
Nano Nickel Powder Avg. Particle Size: 30nm-1000nm Used in nickel-cadmium/nickel-metal hydride batteries, capacitors, and electronics
Nano Aluminum Powder Avg. Particle Size: 20nm-1000nm Raw material for aluminum wires, plates, electronic components, ceramic metallization; additive for precision alloys; used in pure aluminum or aluminum alloy sintered products
Nano Tungsten Powder Avg. Particle Size: 50nm-1000nm Used in aerospace alloys, electronic packaging alloys, electrode materials, microelectronic films, sintering aids, protective coatings, and gas sensor electrodes
Nano Tungsten Carbide Powder Avg. Particle Size: 50nm-400nm Enhances hard alloys with superior properties: Melting point 2860±50°C, boiling point 6000°C, insoluble in water, acid-resistant, extremely hard with high modulus. Known as "King of Hardness" with exceptional wear/corrosion resistance and thermal stability.
Nano Silver Powder Avg. Particle Size: 20nm-400nm Conductive filler for coatings/inks/polymer silver pastes; high-performance conductive material with oxidation resistance; used in electronics, EMI shielding, and antimicrobial applications
Nano Titanium Powder Avg. Particle Size: 20-30nm One of most corrosion-resistant metals; used in aircraft spark plugs, titanium alloys, syringe needles, precision instruments, electrical contacts, and crucibles
Nano Silicon Carbide Powder Avg. Particle Size: 30-100nm Used for modifying high-strength nylon, rubber tires, metal coatings, and high-performance structural ceramics
Nano Aluminum Oxide Powder Avg. Particle Size: 10-300nm Reinforces plastics/rubber/ceramics; significantly improves ceramic density, finish, thermal shock resistance, fracture toughness, creep resistance, and polymer wear resistance
Carbon Nanotubes Avg. Diameter: 8-50nm Used in anti-static polymers, lithium battery pastes, thermal materials, and mechanical reinforcements
Nano Silicon Powder Avg. Particle Size: 35-100nm Used in aerospace, aviation, semiconductors, chemicals, metallurgy, insulation, refractories, and ceramics

Advanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseAdvanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise

Laboratory Magnetron Sputtering Coating Targets

Applications:

  • Vital in rare earth metallurgy, ensuring high-quality material processing.

  • Perfect for high-temperature sintering carrier plates used in tantalum/niobium electrolytic capacitor anodes.

  • Ideal for crafting corrosion-resistant containers used extensively in chemical processing industries.

  • Utilized in sputtering and evaporation coating vessels, supporting cutting-edge technological advancements.

    Implementation Standard: YS/T 573-2007

    Grade FTA17 FTA23 FTA30 FTA40 FTA50
    Impurity Content ≤ (ppm)   1500 1800 2000 2500 2800
      C 30 30 40 50 50
      N 100 150 250 300 350
      H 100 100 100 100 100
      Nb 10 10 10 10 10
      Fe 15 15 15 15 15
      Ni 15 15 15 15 15
      Mo 5 5 5 5 5
      Cr 15 15 15 15 15
      Al 5 5 5 5 5
      Mn 5 5 5 5 5
      K 10 10 10 25 25
      Ti 5 5 5 5 5
      Na 10 10 10 10 10
      W 5 5 5 5 5
      Mg 5 5 5 5 5
      Si 15 15 15 15 15
    Apparent Density g/cm³ 1.8-2.5 1.5-2.5 1.4-2.0 1.4-1.8 1.4-2.8
    Advanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseAdvanced Rj Laboratory Coating Consumables - New, No Oil, Low Noise





High-Purity Cobalt Powder and Reduced Cobalt Powder
Used in:
A cornerstone in metallurgical products, including cemented carbides, diamond tools, superalloys, and magnetic materials.
Essential in chemical products, such as rechargeable batteries, industrial explosives, rocket propellants, and pharmaceuticals, fostering innovation and reliability.
Spherical Cobalt Powder
Main applications: Integral in welding materials, thermal spray coatings, and as special alloy additives, enhancing material performance and longevity.

Product Name Specifications Applications
High-Purity Cobalt Powder Purity: 4N
Available sizes: -50 mesh, -150 mesh, -300 mesh (custom sizing available)
Reduced cobalt powder: gray irregular metal powder (oxalate reduction method)
Spherical cobalt powder: silver-gray metallic spherical powder (atomization method)
Reduced powder: cemented carbides, diamond tools, superalloys, magnetic materials
Chemical applications: rechargeable batteries, industrial explosives, rocket propellants, pharmaceuticals
Spherical powder: welding materials, thermal spray coatings, special alloy additives
High-Purity Cobalt Ingot Purity: 3N8 Mainly used in aerospace and chemical industries
High-Purity Nickel Powder Purity: 3N5
Available sizes: -50 to -500 mesh (custom sizing available)
Light gray irregular powder
Nuclear energy, conductive materials, battery electrodes, chemical catalysts, hard coatings, special welding rods, porous filters, magnetic materials, contact materials, diamond tools, automotive, cemented carbides, high-temperature alloys
High-Purity Nickel Ingot Purity: 3N Electronics, chemicals, watches, eyewear, jewelry, sports equipment, machinery, electroplating, environmental equipment, golf, precision machining
High-Purity Chromium Powder Purity: 4N
Available sizes: -80 to -300 mesh (custom sizing available)
Silver-gray powder
Cemented carbides, diamond tools, welding materials, stainless steel, aluminum, vacuum coating, thermal spray, ceramics
High-Purity Copper Powder Purity: 4N
Available sizes: -50 to -400 mesh (custom sizing available)
Water-atomized: irregular/near-spherical
Gas-atomized: spherical/near-spherical
Powder metallurgy, electroplating, diamond tools, electronics, conductive materials, metal coatings, chemical catalysts, pharmaceuticals, filters, heat pipes, spray materials, welding materials
High-Purity Copper Ingot Purity: 5N High-purity reagents, electronic connectors, bonding wires, high-frequency cables, ICs, LCD sputtering targets, ion plating; essential for nuclear, aerospace, missile, and metallurgical industries
High-Purity Aluminum Powder Purity: 4N6
Available sizes: -100 to -1000 mesh (custom sizing available)
Silver-gray powder
Powder metallurgy additives, anti-corrosion/rust coatings, high-temperature resistant coatings
Advanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseTellurium ingots and tellurium dioxide are critical in semiconductor devices, cooling devices, and alloys. They serve as chemical raw materials and are pivotal in cast iron, rubber, and glass industries. Tellurium beads and ingots are fundamental in producing II-VI compound semiconductors, solar cells, and thermoelectric components. They also play a significant role in cooling components, gas and thermal sensors, pressure sensors, photosensitive sensors, piezoelectric crystals, and nuclear radiation detection, making them indispensable in modern technology.

Product Specifications and Applications

Product Name Specifications Applications
Selenium Powder Purity: 3N-7N
Particle Size: 100 mesh - 450 mesh
Used as an additive in semiconductor devices, cooling devices, alloys, chemical raw materials, as well as in industries such as cast iron, rubber, and glass.
Selenium Dioxide Purity: 3N-6N
White powder
Mainly used for preparing selenium dioxide single crystals, infrared devices, acousto-optic devices, infrared window materials, electronic component materials, preservatives, and glass coloring agents.
Selenium Beads, Selenium Ingots Purity: 3N-7N Primarily used as base materials for preparing II-VI compound semiconductors, solar cells, thermoelectric conversion components, cooling components, gas sensors, thermal sensors, pressure sensors, photosensitive sensors, piezoelectric crystals, and nuclear radiation detection, infrared detectors.

Chemical Composition by Grade

Grade Chemical Composition
  Te ≥, % Impurities, ≤ ppm
    Si Se Mg Ni Pb Fe Al Cd Ag Sn Cu Zn Ca Sum
Te-05 99.999 1.0 1.0 0.5 0.5 0.4 0.2 0.2 0.2 0.2 0.2 - - 10
Te-06 99.9999 - 0.1 0.05 0.05 0.05 0.05 0.05 0.05 0.01 - 0.01 0.1 1
Te-07 99.99999 - 0.01 0.005 0.005 0.005
Advanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseAdvanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseAdvanced Rj Laboratory Coating Consumables - New, No Oil, Low NoiseBismuth powder, a versatile material, finds widespread usage in diverse applications. It's crucial in bismuth alloy products, creating low-temperature solder, and serving as metallurgical additives for steel plants. It's instrumental in petroleum exploration, used as plastic fillers, precision castings, as well as in electroplated wheels, grinding discs, and sharpening tools, offering unmatched quality and performance.

Product Specifications and Applications

Product Name Specifications Applications
Bismuth Powder Purity: 4N-6N
Appearance: Silver-white or slightly reddish metal
Widely used in various bismuth alloy products, low-temperature solder, metallurgical additives for steel plants, petroleum exploration, plastic fillers, precision castings, electroplated wheels, grinding discs, sharpening tools, and more.
Bismuth Beads / Bismuth Needles / Bismuth Targets Purity: 4N-6N
Impurities in 4N bismuth must exceed China National Standard GB/T 915-2010.
Bismuth Needles: Used in metal alloys, metallurgy, additives, pharmaceuticals, cosmetics, semiconductors, and crystals.
Bismuth Beads: Used in petroleum perforating bullets and eco-friendly *ammunition.
Bismuth Targets: Excellent sputtering target components, bonded to backing plates using a melt platform, but extremely brittle.
Bismuth Oxide (α-BiO) Appearance: Light yellow
Particle Size: 1.2 µm

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