This material, based on IPS e.max lithium disilicate powder, will open up a long-awaited path to the series production of patient-specific, all-ceramic dental restorations
Further innovations shown feature a bioresorbable hydroxy apatite jawbone and serially 3D-printed dental implants made of zirconia (TZP-A) or alumina-toughened zirconia (ATZ)
With Lithoz LCM technology, highly complex and ultra-fine ceramic structures unattainable with conventional processes can be produced
At the 100 year anniversary edition of IDS – the top global trade fair for the dental community – Lithoz GmbH, world market and technology leader in high-performance ceramic materials and 3D printers,will unveil their new lithium disilicate material for dental 3D printing, jointly developed with Ivoclar, one of the world’s leading manufacturers of integrated solutions for esthetic, high-quality dental applications.
The 3D-printable lithium disilicate is based on IPS e.max lithium disilicate powder and opens up a long-awaited path to the patient-individual serial production of high-profile all-ceramic dental restorations. Veneers as thin as 0.3 mm and crowns with high levels of detail especially at the occlusal surfaces reaching sharp and natural representation of the features combined with natural translucency, lithium disilicate dental restorations can finally be fabricated in scalable yet individual series production. In a single print run, a multitude of patient-specific restorations with exceptional aesthetics can be created.
At the Lithoz booth, visitors can thoroughly examine those fascinating restorations by themselves and will be informed about the status of the project in detail. The USA will be the first market where the lithium disilicate products will be available to customers after approval.
Further ground-breaking dental applications made possible by the impressive precision of LCM technology and on display at IDS include a bioresorbable jawbone (hydroxy apatite or tricalcium phosphate) and additively serially manufactured dental implants made of zirconia (TZP-A) or alumina-toughened zirconia (ATZ).
Thanks to its high-precision resolution and the use of precisely matched ceramics, Lithoz’s stereolithography-based LCM 3D printing process enables the construction of highly complex and ultra-fine ceramic structures that were previously considered unattainable with conventional processes. The CeraFab System S65 Medical 3D printer, which was specially developed for the dental and medical sector, combines for the first time the extensive design freedom of 3D printing with the outstanding properties of ceramic materials, thus meeting the high demands of the dental sector.
Thanks to its high-precision resolution and the use of precisely matched ceramics, Lithoz’s stereolithography-based LCM 3D printing process enables the construction of highly complex and ultra-fine ceramic structures that were previously considered unattainable with conventional processes. The CeraFab System S65 Medical 3D printer, which was specially developed for the dental and medical sector, combines for the first time the extensive design freedom of 3D printing with the outstanding properties of ceramic materials, thus meeting the high demands of the dental sector.
www.lithoz.com