Horus Tray is a Class I biocompatible material ideal for printing custom impression trays, particularly in the manufacture of implants, dentures, crowns and bridges. The resin is specially designed for fast, accurate printing.
Overview / Dental applications
Key features
Robust, durable parts capable of withstanding the forces exerted during impression taking thanks to high modulus and flexural strength.
Biocompatible class I guarantees maximum patient safety.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm and 100 µm) to find the best compromise between printing speed and precision.
Horus Tray is a Class I biocompatible material ideal for printing custom impression trays, particularly in the manufacture of implants, dentures, crowns and bridges. The resin is specially designed for fast, accurate printing.
Overview / Dental applications
Key features
Robust, durable parts capable of withstanding the forces exerted during impression taking thanks to high modulus and flexural strength.
Biocompatible class I guarantees maximum patient safety.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm and 100 µm) to find the best compromise between printing speed and precision.
For the production of high-definition calcinable moulds.
Horus Castable is a resin designed for printing high-definition calcinable moulds. Printed parts offer high dimensional stability for increased precision. What’s more, no residual ash is left after calcination.
Overview / Dental applications
Key features
Fine details and high dimensional stability for greater precision.
No residual ash after calcination.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm and 100 µm) to find the best compromise between printing speed and precision.
Horus Gingiva is a flexible resin for printing gingival masks that faithfully reproduce the texture and flexibility of human gums. In combination with dental models, it facilitates the fitting of dental prostheses.
Overview / Dental applications
Key features
Soft, durable parts that mimic the texture of human gums.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm and 100 µm) to find the best compromise between printing speed and precision.
For the production of high-precision dental models
Horus Dental Model Grey and Horus Dental Model Classic Ivory are precision resins designed for printing implant models. The printed parts are highly aesthetic and reproduce the finest details. What’s more, the high reactivity of this resin means that prints can be made exceptionally quickly, at speeds of up to 300 mm per hour.
Overview / Dental applications
Key features
High-precision aesthetic parts.
Available in classic ivory or grey.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm, 100 µm and 200 µm) to find the best compromise between printing speed and precision.
For the production of thermoforming models and polymerisation on models
Horus Dental Model Temp is a precision resin designed for printing orthodontic models for thermoforming. This makes the printed parts particularly resistant to water and heat.
Overview / Dental applications
Key features
High-precision aesthetic parts.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm, 100 µm and 200 µm) to find the best compromise between printing speed and precision.
For the production of high-definition calcinable moulds
Horus Castable is a resin designed for printing high-definition calcinable moulds. Printed parts offer high dimensional stability for increased precision. What’s more, no residual ash is left after calcination.
Overview / Dental applications
Key features
Fine details and high dimensional stability for greater precision.
No residual ash after calcination.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm and 100 µm) to find the best compromise between printing speed and precision.
Horus Gingiva is a flexible resin for printing gingival masks that faithfully reproduce the texture and flexibility of human gums. In combination with dental models, it facilitates the fitting of dental prostheses.
Overview / Dental applications
Key features
Soft, durable parts that mimic the texture of human gums.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm and 100 µm) to find the best compromise between printing speed and precision.
For the production of high-precision dental models
Horus Dental Model Grey and Horus Dental Model Classic Ivory are precision resins designed for printing implant models. The printed parts are highly aesthetic and reproduce the finest details. What’s more, the high reactivity of this resin means that prints can be made exceptionally quickly, at speeds of up to 300 mm per hour.
Overview / Dental applications
Key features
High-precision aesthetic parts.
Available in classic ivory or grey.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm, 100 µm and 200 µm) to find the best compromise between printing speed and precision.
For the production of thermoforming models and polymerisation on models
Horus Dental Model Temp is a precision resin designed for printing orthodontic models for thermoforming. This makes the printed parts particularly resistant to water and heat.
Overview / Dental applications
Key features
High-precision aesthetic parts.
Our resin is compatible with all printers with open parameters.
Several layer thicknesses are available on the Horus S-One printer (50 µm, 100 µm and 200 µm) to find the best compromise between printing speed and precision.