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High Purity 3D Printing Aluminum Based Alloy AlSi7Mg Powder

Description of 3D Printing Alloy Aluminum AlSi7Mg Powder  :

First of all, the 3D-printed aluminum alloy powder has good fluidity, which makes it able to fill the mold well during the printing process, avoiding defects such as pores and porosity. At the same time, its particle size is finer, and it can adhere to the substrate well, forming a uniform and smooth surface, which improves the quality and beauty of the product.

Secondly, 3D-printed aluminum alloy powder has good plasticity and processability. During the printing process, it can be compressed into a variety of different shapes and structures, resulting in a variety of different shapes and specifications of parts. This plasticity and machinability make aluminum alloy powder an ideal metal material to meet the needs of a variety of different fields.

In addition, the 3D-printed aluminum alloy powder also has good corrosion resistance and high-temperature properties. At room temperature, it can resist the erosion of most chemical substances, thus ensuring the stability and reliability of the product. At the same time, it also has good performance at high temperatures. It is able to withstand high temperatures and pressures and is utilized in various production processes and equipment with high temperatures.

In addition, the production method of 3D-printed aluminum alloy powder is also relatively simple and efficient. It can be prepared through multiple processes such as crushing, milling, and screening of aluminum alloy raw materials. The process can be carried out with automated equipment, which significantly improves efficiency in production and the quality of the product.

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 Technical Parameter of 3D printing Aluminum Based Alloy AlSi7Mg :

Product NameSiMnZnAlMgCuriosityIt is a good idea to use a different language.
AlSi7Mg6.5-6.7%<=0.1%<=0.1%Bal.0.5-0.8%<=0.05%<=0.2%

 

Application of 3D Printing Alloy Aluminum AlSi7Mg Powder  :

Aerospace: Aluminum alloy has the characteristics of lightweight, high strength, and corrosion resistance, so it is widely used in the aerospace field. 3D-printed aluminum alloy powder can be used to manufacture key components such as various aircraft parts, satellite parts, and rocket parts, reducing manufacturing costs and improving production efficiency.

Automobile manufacturing: Aluminum alloy is widely used in automobile manufacturing, which can reduce the weight of the car body, improve fuel efficiency, reduce emissions, etc. 3D-printed aluminum alloy powders can be used to create diverse automotive components like engine components, chassis parts, and wheels, improving production efficiency and reducing costs.

Medical devices: Aluminum alloy has the characteristics of non-toxic and non-magnetic, so it is widely used in medical devices. 3D-printed aluminum alloy powder can be used to manufacture a variety of medical devices, such as surgical instruments, implants, and diagnostic equipment, improving the reliability and use of equipment.

Construction field: Aluminum alloy has the attributes of being lightweight, strong, and resistant to corrosion, so it is widely used in the construction field. 3D-printed aluminum alloy powder can be used to manufacture various building components, such as bridge components, building facades, and building templates, improving the safety and reliability of buildings.

Energy field: Aluminum alloy is also widely used in the energy field, such as solar panels, wind turbines, and so on. 3D-printed aluminum alloy powder can be used to manufacture a variety of energy equipment, such as solar panel supports, wind turbine blades, and nuclear reactor components, improving the performance and reliability of the equipment.

Electronic products: Aluminum alloy has the characteristics of electrical conductivity, thermal conductivity, and corrosion resistance, so it is widely used in electronic products. 3D-printed aluminum alloy powder can be used to manufacture various electronic products, such as mobile phone shells, circuit boards, electronic components, etc., improving product quality and production efficiency.

In addition, 3D-printed aluminum alloy powder can also be applied to entertainment, art, and other fields, such as making models, sculptures, and artworks. In short, 3D-printed aluminum alloy powder has a wide range of applications, and its excellent performance and adaptability make it an ideal choice in many fields. With the continuous progress of technology and the continuous improvement of application demand, it is believed that there will be more innovative application fields in the future and further promote the application and development of 3D printing aluminum alloy powder in various fields.

At the same time, it should be noted that when applying 3D-printed aluminum alloy powder, it is also necessary to take into account its production cost, maintenance, and maintenance during use. Therefore, in practical applications, it is necessary to select and use according to specific application fields and needs to achieve the best results and benefits.


Production Method of 3D Printing Alloy Aluminum AlSi7Mg Powder  :

Vacuum induction melting method: The vacuum induction melting method is a common method for preparing 3D-printed alloy powder. The method is to melt the metal raw material by induction heating under vacuum conditions, and then disperse the molten metal liquid into tiny droplets by high-speed rotation, and finally solidify into powder. The advantage of this method is that high-purity alloy powder can be prepared, but the production cost is high, and the output is low.

Laser melting method: Laser melting method is a method of using a laser to melt metal raw materials. Under the action of a high-energy laser, the raw metal materials are heated above the melting point to form a molten pool. Then, the molten metal in the molten pool is blown into tiny droplets by high-speed airflow and finally solidified into powder. The advantage of laser melting is that alloy powder with smaller particle size and higher purity can be prepared. Still, the production cost is high, and expensive laser equipment is required.

Electric explosion method: The electric explosion method is a method of melting metal raw materials using high temperature and high pressure generated by high current. The method is to heat the raw metal material above the melting point under the action of high current, forming a molten state, and then impact the molten metal into tiny droplets through the high temperature and high pressure generated by the explosion, and finally solidify into powder. The advantage of the electric explosion method is that the alloy powder with a smaller particle size and higher purity can be prepared. Still, the production cost is high, and special equipment and power supply are required.

Mechanical crushing method: The mechanical crushing method is a method of using mechanical equipment to crush metal raw materials into powder. The method is to put the metal raw materials into the high-speed rotating agitator or ball mill, through the high-speed rotation and impact of the equipment to crush the metal raw materials into tiny particles, and then through screening to obtain the required particle size and purity of the alloy powder. The advantage of mechanical crushing is that the production cost is lower and the output is larger, but the product quality and purity are relatively low.

Steam crushing method: Steam crushing method is a method of using water vapor to crush metal raw materials into powder. The method is to put the metal raw materials into the high-temperature and high-pressure water vapor environment, use the high-temperature and high-pressure action of water vapor to soften the metal raw materials, and crush them into tiny particles through the impact effect, and then get the required particle size and purity of the alloy powder through screening. The advantage of steam crushing is that the production cost is lower and the output is larger, but the product quality and purity are also relatively low.

Prospect Market of 3D Printing Alloy Aluminum AlSi7Mg Powder  :

Market demand: With the continuous development and popularity of 3D printing technology, the market demand for 3D printing alloy powder is also growing. According to the forecast of market research institutions, the demand in the market for 3D printing powder is expected to remain on the rise in the coming years, with the demand particularly strong in aerospace, automotive manufacturing, medical devices, and other fields.

Technological progress: With the continuous progress of material science and manufacturing technology, the preparation technology and quality of 3D printing alloy powder are also constantly improving. The continuous optimization of preparation technology and the continuous update of equipment have greatly improved the preparation efficiency and quality of 3D printing alloy powder. This provides a better foundation and conditions for the wide application of 3D printing alloy powder.

New material application: With the continuous research and development of new materials, the application field of 3D printing alloy powder is also constantly expanding. For example, the emergence of new high-temperature alloys, wear-resistant alloys, conductive alloys, and other materials has made 3D printing alloy powder more widely used in the manufacture of high-performance parts, key components, electronic devices, and other fields.

Customized needs: With the continuous development of the manufacturing industry and the changing needs, the demand for metal powders is becoming more and more diverse. 3D printing technology can be controlled by computer to achieve digital, personalized, and customized production of parts, which provides a more flexible and broad space for the production and application of metal powder.

Environmental awareness: With the continuous improvement of social environmental awareness, people's demand for environmental protection and sustainable development is also getting higher and higher. The 3D printing technology can achieve the reduction of parts production and reduce the production and waste of waste, which provides a more environmentally friendly and sustainable development direction for the production and application of metal powder.


Storage Conditions of Aluminum Based Alloy AlSi7Mg powder:

AlSi7Mg is affected by the dampness of the powder. It should therefore be kept in a dry, cool room and sealed in vacuum packaging. AlSi7Mg Powder should not be exposed to stress.


 The following are the packing & shipping instructions for Aluminum Based Alloy AlSi7Mg:
The quantity of AlSi7Mg powder powder we use will determine the type of packing.
Aluminum-based alloy powder AlSi7Mg Powder packing: vacuum packaging, 100g/bag, 500g/bag or 1kg/bag. 25kg/barrel or your request.
As soon as you receive payment, the powder can be sent by air or sea.

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)


Alloy alSi7Mg powder properties    

  Alternative Names   3D printing powder, AlSi7Mg, AlSi7Mg Powder
  CAS Number   N/A
  Compound Formula   AlSi7Mg
  Molecular Mass   N/A
  Appearance   N/A
  Melting Point   N/A
  Solubility   N/A
  Density   N/A
  Purity       99.90%
  Particle Size   0-45mm, 0-53mm,15-45mm, 15-53mm, 45-105mm
  Bolding Point   N/A
  Specific Heating   N/A
  Thermal Conduction   N/A
  Thermal Expander   N/A
  Young's Module   N/A
  Exact Mass   N/A
  Monoisotopic Mash   N/A




Alloy alSi7Mg powder Health & Safety Information    

  Safety Advisory   N/A
  Hazard Statements   N/A
  Flashing point   N/A
  Hazard Codes   N/A
  Risk Codes   N/A
  Safety Declarations   N/A
  RTECS Number   N/A
  Transport Information   N/A
  WGK Germany   N/A

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