Splint made from Dental LT Clear Resin (V2)

Why Choose Dental LT Clear Resin (V2)?

Dental LT Clear Resin (V2) provides dental professionals with a durable, color-corrected material for the convenient production of long-lasting and hard occlusal splints.


High Performance

Provide fracture-resistant, durable and long-lasting bite splints to patients.


Aesthetic

Polish splints to high optical transparency, aiding in patient acceptance.


Accurate and Consistent

Run a lean and profitable workflow with consistent production of aligners.


Biocompatibility

Provide the patient and clinician the peace of mind they deserve.

Applications

Dental LT Clear Resin (V2) is Formlabs’ second-generation, long-term biocompatible material for clear bite splints.


Consider Dental LT Clear Resin (V2) for:

Splints
Occlusal Guards
Night Guards

Material Properties*

Dental LT Clear Resin (V2)

Ultimate Tensile Strength

52 MPa

Tensile Modulus

2080 MPa

Elongation

12%

Flexural Modulus

2.3 GPa

Impact Strength (Unnotched IZOD)

449 J/m

Hardness Shore D

78D

* Material properties may vary based on part geometry, print orientation, print settings, and temperature. Data were measured on post-cured samples printed on a Form 3B printer with 100 µm Dental LT Clear Resin (V2) settings, washed in a Form Wash for 20 minutes in 99% Isopropyl Alcohol, and post-cured at 60°C for 60 minutes in a Form Cure.

Post-Processing

Form Wash Settings

Duration

20 min in IPA

Notes

To ensure that finished parts are biocompatible, follow all part washing notes in the Instructions for Use. Maintain separate wash buckets for biocompatible materials. Wash for 15 minutes, then remove parts and soak in fresh IPA for 5 minutes. Do not leave Dental LT Clear Resin in IPA for longer than 20 minutes total, as excessive solvent exposure affects the quality of the final part.

Form Cure Settings

Duration

60 min

Temperature

60 °C

Notes

Post-curing as recommended in the material-specific Instructions for Use is required to ensure optimal performance and biocompatibility of 3D printed dental appliances.