We will introduce examples of modeling using CMET's light curing technology and information useful for development sites!
During temporary extracorporeal circulation in surgery, it serves the role of human lungs. It primarily performs gas exchange, adding O2 to the blood and removing CO2. O2 is flowed through hollow fiber membranes packed inside the artificial lung, while blood flows around it to facilitate gas exchange across the membrane. Utilizing photopolymerized products, fluid analysis (CFD) is conducted to examine the optimal blood flow within the artificial lung. A mechanism is created on the inlet side to form blood spots and on the outlet side to gather them at a single point to prevent pressure loss. Cooperation: Tokyo Denki University, Graduate School of Science and Technology, Medical Information Engineering Laboratory, Frontier Collaborative Research Center 【Specifications and Applications】 - Fluid analysis (CFD) through visualization - Performance evaluation ● For more details, please download the catalog or contact us.
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【Specifications and Uses】 - Fluid analysis through visualization (CFD) - Performance evaluation For more details, please download the catalog or contact us.
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For more details, please contact us.
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Applications/Examples of results
- Fluid analysis through visualization (CFD) - Performance evaluation
Company information
Our company has been engaged in the development of layered manufacturing devices, known as 3D printers, for 35 years this year, and as a pioneer in Japanese 3D printer development, we have worked for many years to contribute to the advancement of new technologies related to layered manufacturing. As a high-end industrial 3D printer manufacturer, our business policy since our founding has been to provide a "one-stop service" that encompasses equipment development, software development, resin development, and after-sales service. In recent years, the term for layered manufacturing devices has shifted from rapid prototyping (RP) to additive manufacturing (AM), particularly in Europe and the United States, and their application areas have evolved from simple shape verification to advanced testing and evaluation, as well as the realm of actual products and parts, with increasing applications for incorporation into mass-produced items. We specialize in selling high-end photopolymerization devices focused on shape verification, internal visualization, and assembly confirmation, which are emphasized in the early stages of development. We also sell sand mold layered manufacturing devices as tools for reducing lead times in the casting industry. Both of these devices are designed to meet the manufacturing needs of Japan, and we will continue to develop solutions that shape your needs in the future.