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地址: No.18, Xinghe Road, Nanjing Economic and Technological Development Zone, Jiangsu Province

Aerospace
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  • 浏览:(199)
  • 发布日期:2021-01-01

Arc additive manufacturing technology has attracted more and more attention because of its low cost, high forming efficiency, strong material adaptability and other advantages, especially the efficient rapid near net forming of large-size and complex shape components, which has incomparable efficiency and cost advantages compared with other additive technologies.

The manufacturing cost is low. Compared with laser and electron beam additive manufacturing process, the cost of equipment and material in arc additive manufacturing is lower than the former two;

Without mold opening, it can directly manufacture complex components with low cost and wide market application;

The utilization rate of materials is high. Due to the use of silk as raw material, the material utilization rate of the powder feeding laser deposition (LDM) is 30% higher than that of the powder feeding laser deposition (LDM);

High production efficiency. The results show that the arc heat input is large, which can reach several kg / h forming speed, and the density of the formed parts is high, and there is no limit on the size of the formed parts;

It can form materials with high reflectivity to laser, such as aluminum alloy, copper alloy, etc.

 

 

中科煜宸

Rc-waam1500 arc additive manufacturing system includes  forming heat source (welding machine), wire feeding system, machine host  (including CNC system), gas circulation purification system, inert gas  processing room, cooling system, whole machine control and monitoring  system, 3D printing forming software, argon station, etc.


It can realize AC / DC dual-purpose TIG, miig / MAG, CMT and other arc additive manufacturing processes.

 

  

 

 Parts or parts made of stainless steel, titanium alloy, aluminum alloy, copper alloy and low alloy steel can be rapidly formed.

 

 

Because waam technology has the advantages of low cost, high forming efficiency and strong material adaptability, it has great advantages in the fields of national defense, aerospace, energy and power.