Evaluation of Microshear Bond Strength of Four Different CAD‐CAM Polymer‐Infiltrated Ceramic Materials after Thermocycling | Academic Article individual record
abstract

Purpose

To evaluate the bond strength of three monolithic hybrid ceramics/resin nanoceramics and a zirconia-reinforced lithium silicate to resin cement after thermocycling.

Materials and methods

Using four materials, including Vita Enamic (VITA Zahnfabrik), Lava Ultimate (3M ESPE), Crystal Ultra (Digital Dental), and Vita Suprinity (VITA Zahnfabrik), 64 specimens were prepared with dimensions of 4 mm × 3 mm × 1.5 mm. Vita Suprinity samples were sintered at 840°C for 8 min. After polishing and cleaning all the samples in each group (n = 16), they were subjected to their recommended surface treatment: 10% hydrofluoric acid for Vita Enamic (60s) and Vita Suprinity (20s); air abrasion of Lava Ultimate and Crystal Ultra with 50 u Al2 O3 particles. Then, tygon tubes were filled with dual cure resin cement (Panavia F2.0), cured and then subjected to thermal cycling (2000 cycles; 5-55°C). The microshear bond strength was measured using microtensile testing machine. The data were analyzed using Welch and Games-Howell tests (α = 0.05). The mode of failure was also evaluated using a stereomicroscope.

Results

The highest and the lowest mean microshear bond strength belonged to the Crystal Ultra (7.71 ± 1.54 MPa) and Vita Suprinity (4.73 ± 1.87 MPa) groups, respectively. The differences between groups were significant and Crystal Ultra had higher bond strength in comparison to all three materials (p < 0.05).

Conclusion

Hybrid ceramics showed higher bond strength to resin cements in comparison to resin nanoceramics and zirconia-reinforced lithium silicate materials.

publication outlet

Journal of Prosthodontics

author list (cited authors)
Beyabanaki, E., Eftekhar Ashtiani, R., Feyzi, M., & Zandinejad, A.
publication date
2021
publisher
Wiley Publisher
keywords
  • Polymer-infiltrated Ceramic Network
  • Zirconia-reinforced Lithium Silicate
  • Microshear Bond Strength
  • Resin Nanoceramic
  • Hybrid Ceramic
  • Resin Cement
  • Dental/oral And Craniofacial Disease
citation count

0

identifier
591940SE
Digital Object Identifier (DOI)