Radix™ Printable Dielectric: 3D-Printable Dielectric Material for use on Fortify FLUX Series Printers Datasheet
■Radix Printable Dielectric also enables the use of Gradient Index (GRIN) dielectric components with little added complexity. The solid 2.8 dielectric constant material has a dissipation factor of 0.0043 at 10 GHz, and can be used to create structures that have a graded dielectric constant in all three dimensions by means of a varying density lattice. These latticed structures provide even lower dissipation factor and weight when compared against a similar part made with solid materials.
■Fortify's FLUX series printers powered by a DLP (Digital Light Processing) engine, combine the scalability, resolution, and surface quality of photopolymers with the performance expectations of traditional high performance polymers. CKM (Continuous Kinetic Mixing), a proprietary subsystem built into the printers, enables printing of photopolymer resins with uniformly distributed functional additives. The system ensures that particles stay uniformly suspended instead of agglomerating or settling to the bottom of the vat. CKM allows for an expanded processing window compared to other photopolymer DLP or SLA systems, processing much higher viscosity materials. Fortify partners with Rogers Corporation and other global chemical companies to extend material properties and solve printability challenges.
Printable Dielectric 、 low loss DLP and sterolithography (SLA) 3D-printable material |
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[ Gradient Index (GRIN) Lenses ][ Gradient Dielectric Constant Lenses ][ 3D Antenna Systems ][ Impedance matching structures ][ radomes ][ Printers ] |
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Datasheet |
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Please see the document for details |
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English Chinese Chinese and English Japanese |
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2023/1/5 |
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92-205 |
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226 KB |
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