KeyGuard™
KeyGuard™ is designed for additive manufacturing in vat polymerization 3D printers utilizing wavelengths between 385nm-405nm. KeyGuard™ is for the fabrication of custom-made athletic mouth guards. KeyGuard™ is intended to be used within a computer-aided design and manufacturing (CAD/CAM) system that includes a 3D scanner, design software, 3D printer, and post-cure unit.
Biocompatible
Strong
Durable
Comfortable
Features & Benefits
- Precise fit for enhanced comfort and performance. Giving you the competitive edge you need to dominate your sport, KeyGuards are created using advanced digital 3D scanning and printing technologies, enabling the most personalized customization of any mouthguard available. This ensures an optimal fit for each individual athlete, enhancing comfort and performance.
- Protection only where needed with complete design freedom.
- Optimized Cost Efficiency: The manufacturing process for KeyGuard mouthguards is streamlined and efficient. By eliminating the need for manual molding and thermoforming, dental clinics and labs can save considerable labor costs. With KeyPrint, there is no need for physical molds, reducing storage requirements and consumables.
- Superior Durability: KeyGuard mouthguards are constructed using a proprietary formulation that creates guards with superior strength and durability. This ensures longevity and resilience even during intense sports activities, providing long-lasting protection for athletes.
- More Sustainable than traditional methods: The KeyPrint 3D process minimizes material waste and energy consumption compared to traditional manufacturing methods. By embracing this sustainable approach, dental clinics and labs can contribute to environmental conservation while delivering top-quality mouthguards.
PROPERTY | METHOD | KEYGUARD |
Tear Strength | ASTM D624-00 | 30 kN/m |
Hardness | ASTM D2240-00, 25C @ 0 sec | 75-90 A |
Impact Strength | ISO 179-1 | 27.5 kJ/m2 |
Impact Resistance | ISO 179-1 | 220 j/m |
Water Sorption | ASTM D570 @ 3hr | 5.7% |
Tensile Cyclic Hysteresis | Energy returned @ 25C Energy lost @ 25C |
27% 73% |
Elongation at break (strain) | ASTM D638 | 130% |
Liquid Viscosity | Internal | 900cP |
Biocompatibility | ISO 10993-5, Cytotoxicity ISO 10993-10, Sensitization ISO 10993-23, Irritation |
PASS |
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