3DELTA 

CROWN & BRIDGE RESINS 

3DELTA CROWN

Light curing composite for the additive manufacturing of permanent anterior and posterior restorations, e.g. single crowns, inlays, onlays and veneers as well as artificial denture teeth for full and partial dentures.

  • Medical device class IIa [EU]
  • FDA cleared by 510(k) [USA]
  • Wavelength 385 nm


Available Shades:
A1, A2, A3, A3.5, B1, B3, D3, C1, C3, Bleach

Units:

3DELTA CROWN 500 g
3DELTA CROWN 1000 g


Technical Data Sheet 3DELTA CROWN 

PHYSICAL PROPERTIES 

acc. to DIN EN ISO 10477

Flexural Strength

144 MPa

req.: ≥ 50MPa*

Flexural Modulus

5815 MPa

req.: n.a.

 Water Absorption 

16 µg/mm³

req.: ≤ 40 μg/mm³*

     Solubility     

0,2 µg/mm³

req.: ≤ 7,5 μg/mm³*

Compressive Strength

420 MPa

req.: > 300MPa*

WEAR RESISTANCE*


Top-Performing 3D-Print Material: 3DELTA CROWN demonstrated the lowest wear among the tested 3D-printed materials in the study.


Significantly More Resilient: 3DELTA CROWN shows significantly less mean wear loss compared to competitors.


Long-Lasting Performance: After 200,000 wear
cycles, 3DELTA CROWN maintained its integrity
with nearly half the wear of its 3D-printed
competitors.

 *Analysis and comparison of the wear resistance of different 3D printed restorative materials for permanent restorations using the ACTA wear simulation method. 


"I‘m genuinely impressed by the evolution of printable restorative resins. Despite the high ceramic filler content of 3DELTA CROWN, the material remains remarkably fluid, making it easy to print and predictable to polish." 

Dr. Andrew Ip, Sydney, Australia

Pictures by Dr. Andrew Ip

3DELTA Unlimited

 Light-curing composite for the additive manufacturing of permanent crowns, temporary crowns and bridges, monolithic full or partial dentures and artificial denture teeth.

  • 50% filler content
  • FDA cleared by 510(k) [USA]
  • Wavelength 385 nm


Available Shades:
A1, A2, A3, A3.5, B1, C1, Bleach

Units:

3DELTA UNlimited 500 g
3DELTA UNlimited 1000 g 


Technical Data Sheet 3DELTA UNlimited

This product is approved for sale in the US only. 

3DELTA ETEMP

Light-curing composite for the additive manufacturing of temporary restorations, e.g. crowns and bridges.

  • Medical device class IIa [EU]
  • FDA cleared by 510(k) [USA]
  • Wavelength 385 nm


Available Shades:
A1, A2, A3

Units:
3DELTA ETEMP 1000 g

Technical Data Sheet 3DELTA ETEMP

Pictures by Dr. Andrew Ip

WHAT DOES SCIENCE SAY? 

DeltaMed’s 3D-printable composites, 3DELTA CROWN and 3DELTA ETEMP, have been tested for years by renowned universities in independent studies. A selection of these studies is listed below. 

Kessler A., Tseng P., Sabbagh H., Schwendicke F., Spies B., Kernen A., Lüchtenborg J. (2026). An in vitro analysis of two-body wear and three body wear, hardness, and degree of conversion of 3D-printed restorative materials, Dental Materials, https://www.sciencedirect.com/science/article/abs/pii/S0109564126002903?via%3Dihub

Hoffmann, M., Coldea, A., & Stawarczyk, B. (2025). Mechanical Properties of Novel 3D-Printed Restorative Materials for Definitive Dental Applications.
Materials, 18(20), 4662. https://doi.org/10.3390/ma18204662

Montenbruck, L., Lüchtenborg, J., Elgezawi, M., Keßler, A., & Kaisarly, D. (2025). Influence of pretreatment strategies on the tensile bond strength of 3D printed composite resins for definitive cementation to dentin. The Journal of Prosthetic Dentistry. https://doi.org/10.1016/j.prosdent.2025.04.043

KEßLER, A., Hickel, R., & Ilie, N. (2021). In vitro investigation of the influence of printing direction on the flexural strength, flexural modulus and fractographic analysis of 3D-printed temporary materials. Dental materials journal, 40(3), 641-649. https://www.jstage.jst.go.jp/article/dmj/40/3/40_2020-147/_pdf


 Reymus, M., Fabritius, R., Keßler, A., Hickel, R., Edelhoff, D., & Stawarczyk, B. (2020). Fracture load of 3D-printed fixed dental prostheses compared with milled and conventionally fabricated ones: the impact of resin material, build direction, post-curing, and artificial aging—an in vitro study. Clinical oral investigations, 24(2), 701-710 https://pubmed.ncbi.nlm.nih.gov/31127429/

Reymus, M., & Stawarczyk, B. (2020). Influence of Different Postpolymerization Strategies and Artificial Aging on Hardness of 3D-Printed Resin Materials: An In Vitro Study. International Journal of Prosthodontics, 33(6).

Kessler, A., Reymus, M., Hickel, R., & Kunzelmann, K. H. (2019). Three-body wear of 3D printed temporary materials. Dental Materials, 35(12), 1805-1812. 

The availability of our products may vary depending on market or country specific conditions. Please contact us for further information.

Frequently Asked Questions

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