3D Printer for Conductive Filament Printing - 'Bellulo' Series
Addressing static electricity issues with substrate placement jigs! Jigs that protect semiconductors and other components from damage due to static electricity can be produced in-house at low cost and with short lead times!
What is required of jigs and trays for electronic components, in addition to being non-static, is to have a moderate softness to avoid damaging delicate parts. ■ Features of the printer <Stable molding with unique mechanisms> 〇 Heat bed to prevent model warping 〇 Cooling fan to suppress resin drooping 〇 Auto-leveling function that maintains a constant distance between the nozzle and the table (excluding Bellulo200) 〇 Table drive to prevent shaking and tilting 〇 Easy and efficient material exchange - Equipped with parameters for conductive filament "NLU1618" - Capable of producing jigs using conductive filament - Achieves smooth surface quality with stable molding - Easy and smooth operation - Reliable support system even after installation * For more details, please refer to the product catalog. * For inquiries, please contact the Industrial Machinery Systems Division.
basic information
<Conductive Filament> The developed conductive filament for 3D printers is a filament in which carbon nanotubes (CNT) are uniformly dispersed in an elastomer. By incorporating CNT, it forms a fine and dense conductive network within the material, preventing the accumulation of charge and resulting in a non-charged state. <Features of Conductive Filament> 〇 Low Surface Resistance Generally, materials like ABS and PLA used in 3D printers are insulators and tend to accumulate charge, but the conductive filament is controlled to have a surface resistance value of 10³ to 10⁶ Ω/sq, making it an excellent material for charge dissipation. 〇 Flexibility Not Found in Normal Materials In delicate substrate fixtures, if the material is too hard, it can break, and if it is too soft, it may not be stable; therefore, moderate flexibility is required. The conductive filament has rubber-like elasticity (Shore A hardness of 80 to 85 degrees), allowing for adequate friction and elasticity to work without damaging the substrate. <Three Features> - Excellent conductivity - No carbon shedding, clean - Flexibility not found in resins <Specifications of Conductive Filament> Filament Diameter: φ1.75mm Net Weight: 500g Filament Color: Black
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Applications/Examples of results
【Usage】 * 3D Printer * Conductive Special Filament <Three Features> - Excellent conductivity - Clean with no carbon shedding - Flexibility not found in resin <Specifications of Conductive Filament> Filament Diameter: φ1.75mm Net Weight: 500g Filament Color: Black
