It is used as a cooling blade in megawatt-class generators! Improving power generation efficiency.
Here is an example of an airfoil cooling blade created using a 3D printer. Air is pushed into the housing of the generator to dissipate waste heat. Traditional assembly through welding had the potential for human error. By replacing it with Meltio and automating the process, we reduced human error and improved power generation efficiency through a more optimized blade shape and lightweight design. 【Specifications (partial)】 ■ Dimensions: 200×152×55mm ■ Weight: 516g ■ Material: SUS316L ■ Printing time: 3 hours 50 minutes *For more details, please refer to the PDF document or feel free to contact us.
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【Other Specifications】 ■Gas: Argon ■Layer Pitch: 0.5mm ■Post-processing: Polishing *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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Since our establishment in 2016, we have utilized cutting-edge technologies, including 3D printers, to provide equipment sales and contract manufacturing services leveraging 3D printing technology. This has contributed to the high added value of components, shortened delivery times, and cost reductions, earning us the trust of many companies and partners. Moving forward, we have developed the manufacturing platform 'Taiga' to meet your needs by enhancing security and streamlining the entire supply chain. We will continue to be a preferred choice in optimizing the supply chain by addressing various challenges on-site, such as the reproduction of parts from lost suppliers and small-batch production of diverse products.