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【3D Printing Applications】Customizing Optical Equipment: How a Major Electrochemical Manufacturer Does It!

【3D列印應用】光學設備客製化,電化學大廠這樣做!

3DMART |

【3D Printing Applications】How a leading electrochemical equipment manufacturer customizes optical equipment!

GiT Gingen Technology specializes in electrochemical measurement systems and has extensive industry-academia experience in customizing battery measurement systems, optical microscopic imaging, electrochemical reactors, mechanical pressure devices, and other equipment. In recent years, they have begun to experiment with 3D printing and 3D scanning technologies, and use 3D printed models to simulate and verify ideas, quickly fulfilling different testing needs and improving R&D efficiency (Click here to see: "ZEISS Lens" Optical Manufacturing 3 Secrets!). We are honored to have the opportunity to collaborate with GiT Gingen Technology and participate in the TV program "Made in Taiwan." Watch the full interview now:

 

Before the development of 3D printing technology, customized plastic and metal molds and parts required cutting and machining using CNC and traditional milling and turning machines. Now, by integrating 3D printing technology into the manufacturing process, clients can use 3D printed physical models for on-site verification during the product proposal stage. This allows them to accurately determine the applicability and feasibility of the product, while also shortening the development, testing, and improvement time for customized products.
 
 

GiT Gingen Technology's Product Design Manager personally brought various electrochemical samples to 3dmart! We used the Shining Einscan Pro HD turntable fixed mode to perform 3D scanning on the samples. The turntable automatically rotates 360 degrees during scanning, taking only 3 minutes! This allows us to capture every angle of the object, ensuring high-speed scanning while maintaining detailed accuracy. The dedicated 3D scanning software provides real-time preview and display of the scanning results during the process.
 
 

"By integrating 3D printers into the production line, product designers don't need to be specialized in computer-aided manufacturing (CAM). They can directly use 3D printing software for model slicing and complete the production of proposal models. This is very helpful for controlling labor and material costs in the development of low-volume, highly customized products!" said Chen Hong-ming, Product Design Manager at GiT Gingen Technology.

 
Using an Ultimaker S5 3D printer for on-site sample production, whether it's for printing high-precision helical parts, assemblies, or recessed structures (Click here to see: 8 types of technical samples, effects and characteristics at a glance!), companies can quickly create initial sample structures and test the feasibility of ideas before mass production, saving significant cost resources!

Did you enjoy this sharing? With new technologies advancing rapidly, investing effort and resources in the most suitable areas, no matter the industry, even a flash of inspiration can create powerful R&D tools for every innovative idea. We offer more than just 3D printing; contact us immediately to learn more about Ultimaker 3D printers.