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3D Printing Alloy Spherical Copper Coated Tungsten Powder

Description of 3D Printing Aluminum Spherical Copper Coated Tungsten Powder:   

The manufacturing process of 3D printing aluminum spherical copper-plated tungsten powder adopts advanced preparation technology. Through spherification treatment and a surface copper-plated process, aluminum powder is made into copper-plated tungsten powder with a spherical structure. This manufacturing method not only ensures the sphericity and uniformity of the powder but also improves the surface quality of the powder, making it more stable in the air and having good fluidity.

3D-printed aluminum spherical copper-coated tungsten powder has excellent mechanical and physical properties. Due to the characteristics of aluminum and copper, this powder has the characteristics of high density, high strength, high conductivity, and corrosion resistance. At high temperatures, it is able to maintain stable physical and chemical properties while having good wear resistance and oxidation resistance. These advantages allow it to maintain stable performance in a variety of environments.

3D-printed aluminum spherical copper-coated tungsten powder also has good thermal and chemical stability. At high temperatures, it will not occur oxidation or corrosion and other phenomena can maintain the original structure and performance. At the same time, it also has good corrosion resistance and can be used in a variety of corrosive environments. These advantages make it in high temperatures and corrosive environments can get good application effects.

 
Application of 3D Printing Aluminum Spherical Copper Coated Tungsten Powder:     

Aerospace: The aerospace sector requires high-precision, high-performance parts and components, such as aircraft parts, satellite parts, etc. 3D printing aluminum spherical copper-coated tungsten powder can prepare parts with complex shapes and excellent properties, improving the reliability and safety of aerospace.

Automotive manufacturing: Automotive manufacturing requires a large number of high-precision, high-performance components, such as engines, chassis, brake systems, etc. 3D printing aluminum spherical copper-coated tungsten powder can prepare parts with complex shapes and excellent performance, improve vehicle safety and reliability, and reduce production costs.

Medical devices: The medical device field requires highly customized and high-performance parts and components, such as surgical instruments, implants, diagnostic equipment, etc. 3D printing aluminum spherical copper-coated tungsten powder can quickly prepare highly customized parts, improving the reliability and use effect of medical devices.

Construction field: The construction field needs high-strength, corrosion-resistant building materials, such as bridge components, building facades, etc. 3D printing aluminum spherical copper-coated tungsten powder can prepare building materials with complex shapes and excellent properties, improving the safety and aesthetics of buildings.

Electronic manufacturing: The field of electronic manufacturing requires miniature, high-performance electronic components, such as mobile phone casings, circuit boards, etc. 3D printing with copper-coated aluminum spherical tungsten powder is able to create tiny electronic components with high performance. They can improve the effectiveness and quality of electronic devices.

Mold manufacturing: The field of mold manufacturing requires high-precision, high-wear mold materials, such as injection molds, stamping molds, etc. 3D printing aluminum spherical copper-coated tungsten powder can prepare high precision and high wear resistance mold parts, improving the service life and production efficiency of the mold.

Art field: The art field needs unique and creative shapes and structures, such as sculptures, architectural models, etc. 3D printing aluminum spherical copper-coated tungsten powder can prepare artworks with complex shapes and structures, enriching the types and forms of expression of artworks.

Scientific research: In the field of scientific research, 3D printing aluminum spherical coppered tungsten powder is also widely used in the preparation of models and experimental samples and in other fields, providing new research means and methods for scientific research.


Production Method of 3D Printing Aluminum Spherical Copper Coated Tungsten Powder: 

Preparing raw materials: Raw materials such as aluminum powder, copper powder, and binder need to be prepared to ensure the purity and stability of raw materials. Among them, aluminum powder and copper powder should have high purity, small particle size, and good dispersion so that they can be better mixed and nodulated in the subsequent production process.

Mixing: aluminum powder and copper powder are mixed in a certain proportion, and an appropriate amount of binder is added at the same time to improve the fluidity and filling effect of the powder. In the mixing process, it is necessary to pay attention to the mixing time and mixing speed to ensure the mixing uniformity and stability of the powder.

Spheroidizing treatment: The mixed powder is spheroidized to make the powder particles more smooth and uniform. The purpose of spheroidizing treatment is to improve the fluidity and filling effect of the powder but also to improve the density and performance of the printed product. Physical or chemical methods, such as centrifugal modularization and gas nodularization, can treat modularization.

Heat treatment: The powder, after spheroidization, is heat treated to remove impurities and gases and make it achieve the required physical and mechanical properties. Heat treatment can be used in vacuum heat treatment, atmosphere heat treatment, etc.; heat treatment temperature and time need to be adjusted according to the specific material.

Surface treatment: The powder, after heat treatment, is treated on the surface, such as electroless copper plating or electroplating copper, to enhance its surface conductivity and wear resistance. The method for surface treatment must be adapted according to the particular application and the material specifications.

Screening: The powder, following the surface treatment, is screened to separate small and large particles. It is also checked to ensure that the distribution of particle sizes of the powder is in line with standards. The screening process requires attention to the safety of powder storage and use to avoid its exposure to moisture, oxygen, and other impurities.

Packaging: The powder, after screening, is packaged to avoid the impact of moisture, oxygen, and other impurities to ensure that it has better stability and reliability during use. The packaging should be moisture-proof, oxygen-proof, dust-proof, and other functions to ensure the quality and reliability of the powder.

In addition to the above basic production steps, the following points need to be noted in actual production:

In the production process, attention needs to be paid to the purity and stability of raw materials, as well as the cleanliness and dryness of the production environment, to ensure the quality and reliability of the product.

In the mixing process, it is necessary to pay attention to control the mixing time and mixing speed, as well as the cleanliness and dryness of the mixing equipment to ensure the mixing uniformity and stability of the powder.

In the process of spheroidization, it is necessary to pay attention to controlling the parameters and temperature of the spheroidization equipment, as well as the cooling speed and time after spheroidization to ensure the sphericity and fluidity of the powder.

In the heat treatment process, it is necessary to pay attention to controlling the heat treatment temperature and time, as well as the heat treatment atmosphere and pressure, to ensure the physical and mechanical properties of the material.

In the surface treatment process, it is necessary to pay attention to the control of the surface treatment process and parameters, as well as the uniformity and density of the surface treatment, in order to ensure the surface quality and reliability of the material.

In the screening process, it is necessary to pay attention to controlling the mesh number and accuracy of the screening, and also the effectiveness and durability of the screening process in order to guarantee the particle size and the yield of the powder.

Packing & Shipping Copper-coated Tungsten Pulp:  

There are many options for packing depending on the Copper-coated Tungsten powder quantity.

Tungsten powder packaging with copper coating: vacuum packaging, 100g, 500g and 1kg/bag. 25kg/barrel. Or as you request.

Shipment of Copper-coated Tungsten Pulp: can be made by sea or air as soon as payment receipt is received.


Synthetic Chemical Technology Co. Ltd.,is an established global chemical material manufacturer and supplier with over 12 years' experience in the production of high-quality nanomaterials. These include boride powders, nitride particles, graphite particles, sulfide particles, 3D printing materials, etc.  
You can contact us to send a request for tungsten-boride powder. (
 sales5@nanotrun.com)


3D Printing Alloy Spherical Copper coated Tungsten Powder Properties    

  Other Titles   Copper-coated Tungsten Powder
        N/A
  Compound Formula   W
  Molecular Weight   N/A
  Appearance   Different forms of gray metallic solid (ingot, tubing and pieces, powder, etc.)
  Melting Point   N/A
  Solubility In Water   N/A
  Density   NA
  Purity   N/A
  Particle Size   0-20mm, 15-45mm, 15-53mm, 53-105mm, 53-150mm, 105-250mm
  Boling Point   N/A
  Specific Heat   N/A
  Thermo Conductivity   N/A
  Thermal Expansion   N/A
  Young's Module   N/A
  Exact   N/A
  Monoisotopic   N/A




Tungsten Powder Safety & Health Info    

  Safety Notice   N/A
  Hazard Statements   N/A
  Flashing Point   N/A
  Hazard Codes   N/A
  Risk Codes   N/A
  Safety statements   N/A
  RTECS #   N/A
  Transport Information   N/A
  WGK Germany   N/A

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