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2 "Panavia F 2.0"
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Research Article
Effects of air-abrasion pressure on the resin bond strength to zirconia: a combined cyclic loading and thermocycling aging study
Eman Z. Al-Shehri, Afnan O. Al-Zain, Alaa H. Sabrah, Sarah S. Al-Angari, Laila Al Dehailan, George J. Eckert, Mutlu Özcan, Jeffrey A. Platt, Marco C. Bottino
Restor Dent Endod 2017;42(3):206-215.   Published online June 5, 2017
DOI: https://doi.org/10.5395/rde.2017.42.3.206
AbstractAbstract PDFPubReaderePub
Objectives

To determine the combined effect of fatigue cyclic loading and thermocycling (CLTC) on the shear bond strength (SBS) of a resin cement to zirconia surfaces that were previously air-abraded with aluminum oxide (Al2O3) particles at different pressures.

Materials and Methods

Seventy-two cuboid zirconia specimens were prepared and randomly assigned to 3 groups according to the air-abrasion pressures (1, 2, and 2.8 bar), and each group was further divided into 2 groups depending on aging parameters (n = 12). Panavia F 2.0 was placed on pre-conditioned zirconia surfaces, and SBS testing was performed either after 24 hours or 10,000 fatigue cycles (cyclic loading) and 5,000 thermocycles. Non-contact profilometry was used to measure surface roughness. Failure modes were evaluated under optical and scanning electron microscopy. The data were analyzed using 2-way analysis of variance and χ2 tests (α = 0.05).

Results

The 2.8 bar group showed significantly higher surface roughness compared to the 1 bar group (p < 0.05). The interaction between pressure and time/cycling was not significant on SBS, and pressure did not have a significant effect either. SBS was significantly higher (p = 0.006) for 24 hours storage compared to CLTC. The 2 bar-CLTC group presented significantly higher percentage of pre-test failure during fatigue compared to the other groups. Mixed-failure mode was more frequent than adhesive failure.

Conclusions

CLTC significantly decreased the SBS values regardless of the air-abrasion pressure used.

Citations

Citations to this article as recorded by  
  • Shear bond strength of resin to additively manufactured zirconia with different surface treatments
    Yanru Shen, Xiang Wang, Chen Yang, Ying Jiang, Feng Wang, Li Peng, Yongsheng Zhou, Yuchun Sun
    Surfaces and Interfaces.2024; 54: 105153.     CrossRef
  • Multiscale analysis of the compressive behaviour of polymer-based composites reinforced by hybrid Al2O3/Al fibres
    Hao Tang, Jiaqi Xu, Constantinos Soutis, Aleksey Yerokhin
    Composites Science and Technology.2024; 255: 110718.     CrossRef
  • An Advanced Surface Treatment Technique for Coating Three-Dimensional-Printed Polyamide 12 by Hydroxyapatite
    Abdulaziz Alhotan, Saleh Alhijji, Sahar Ahmed Abdalbary, Rania E. Bayoumi, Jukka P. Matinlinna, Tamer M. Hamdy, Rasha M. Abdelraouf
    Coatings.2024; 14(9): 1181.     CrossRef
  • Does incorporation of TiO 2 nanotubes in air-abraded high translucent zirconia influence shear bond strength?*
    Bahadır Ezmek, Osman Cumhur Sipahi
    Journal of Adhesion Science and Technology.2023; 37(22): 3206.     CrossRef
  • Effects of aging and light-curing unit type on the volume and internal porosity of bulk-fill resin composite restoration
    Afnan O. Al-Zain, Elaf A. Alboloshi, Walaa A. Amir, Maryam A. Alghilan, Eliseu A. Münchow
    The Saudi Dental Journal.2022; 34(3): 243.     CrossRef
  • Influence of surface treatments and cyclic fatigue on subsurface defects and mechanical properties of zirconia frameworks
    Alaaeldin Elraggal, Nikolaos Silikas, Moustafa Aboushelib
    Dental Materials.2021; 37(5): 905.     CrossRef
  • Effects of low-temperature degradation on the surface roughness of yttria-stabilized tetragonal zirconia polycrystal ceramics: A systematic review and meta-analysis
    Hui Yang, Yi-Li Xu, Guang Hong, Hao Yu
    The Journal of Prosthetic Dentistry.2021; 125(2): 222.     CrossRef
  • Effect of surface treatments on repair strength, roughness and morphology in aged metal-free crowns
    Yançanã Luizy Gruber, Thaís Emanuelle Bakaus, Bruna Fortes Bittencourt, João Carlos Gomes, Alessandra Reis, Giovana Mongruel Gomes
    Brazilian Journal of Oral Sciences.2020; 19: e206155.     CrossRef
  • Retentive Force of Glass-Ceramic Soldered Customized Zirconia Abutment Copings with Prefabricated Titanium Bases
    Jeremias Hey, Monika Kasaliyska, Andreas Kiesow, Ramona Schweyen, Christin Arnold
    Materials.2020; 13(14): 3193.     CrossRef
  • Solvent-aided direct adhesion of a metal/polymer joint using micro/nano hierarchical structures
    Gyosik Jun, Jeong-Won Lee, Younghun Shin, Kihwan Kim, Woonbong Hwang
    Journal of Materials Processing Technology.2020; 285: 116744.     CrossRef
  • Study of physicochemical properties and effects on bonding to zirconia ceramics of five resin cements
    Xiuju Liu, Zhaoying Liu, Xuan Li, Han Wang, Gaigai Yu, Song Zhu
    Journal of Adhesion Science and Technology.2020; 34(18): 2031.     CrossRef
  • The effect of air-particle abrasion and a zirconia primer application on resin cement bonding strength to zirconia
    Alana M. Dantas, Fernanda Campos, Sarina M. Pereira, Elis J. dos Santos, Laudenice L. Pereira, Dayanne M. Moura, Rodrigo O. Souza
    Minerva Stomatologica.2019;[Epub]     CrossRef
  • Influence of Non-Thermal Atmospheric Pressure Plasma Treatment on Shear Bond Strength between Y-TZP and Self-Adhesive Resin Cement
    Dae-Sung Kim, Jong-Ju Ahn, Eun-Bin Bae, Gyoo-Cheon Kim, Chang-Mo Jeong, Jung-Bo Huh, So-Hyoun Lee
    Materials.2019; 12(20): 3321.     CrossRef
  • Effect of airborne particle abrasion and sintering order on the surface roughness and shear bond strength between Y-TZP ceramic and resin cement
    Yener OKUTAN, Munir Tolga YUCEL, Tugce GEZER, Mustafa Borga DONMEZ
    Dental Materials Journal.2019; 38(2): 241.     CrossRef
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Original Article
The bonding durability of resin cements
Min-Woo Cho, Sang-Hyuk Park, Jong-Ryul Kim, Kyoung-Kyu Choi
J Korean Acad Conserv Dent 2007;32(4):343-355.   Published online July 31, 2007
DOI: https://doi.org/10.5395/JKACD.2007.32.4.343
AbstractAbstract PDFPubReaderePub

The objectives of this study was to evaluate the durability of 4 resin cements by means of microtensile bond strength test combined with thermocycling method and fractographic FE-SEM analysis.

Experimental groups were prepared according to thermocycling (0, 1,000, 5,000) and the kind of resin cements, those were Variolink II, Multilink, Panavia F 2.0, Rely X Unicem. Flat dentin surfaces were created on mid-coronal dentin of extracted third molars. Then fresh dentin surface was grounded with 320-grit silicon carbide abrasive papers to create uniform smear layers. Indirect composite block (Tescera, Bisco Inc., Schaumburg, IL, USA) was fabricated (12 × 12 × 6 mm3). It's surface for bonding to tooth was grounded with silicon carbide abrasive papers from 180- to 600-grit serially, then sandblasted with 20 - 50 µm alumina oxide. According to each manufacturer's instruction, dentin surface was treated and indirect composite block was luted on it using each resin cement. For Rely X Unicem, dentin surface was not treated. The bonded tooth-resin block were stored in distilled water at 37℃ for 24 hours. After thermocycling, the bonded tooth-resin block was sectioned occluso-gingivally to 1.0 mm thick serial slabs using an Isomet slow-speed saw (Isomet, Buehler Ltd, Lake Bluff, IL, USA). These sectioned slabs were further sectioned to 1.0 × 1.0 mm2 composite-dentin beams. The specimens were tested with universal testing machine (EZ-Test, Shimadzu, Japan) at a crosshead speed of 1.0 mm/min with maximum load of 500 N. The data was analyzed using one-way ANOVA and Duncan's multiple comparison test at p ≤ 0.05 level.

Within the limited results, we conclude as follows;

1. The bond strength of Variolink II was evaluated the highest among experimental groups and was significantly decreased after 1,000 thermocycling (p < 0.05).

2. The bond strength of Multilink was more affected by thermocycling than the other experimental groups and significantly decreased after 1,000 thermocycling (p < 0.05).

3. Panavia F 2.0 and Rely X Unicem showed the gradually decreased tendency of microtensile bond strength according to thermocycling but there was no significant difference (p > 0.05).

4. Adhesive based-resin cements showed lower bond strength with or without thermocycling than composite based-resin cements.

5. Variolink II & Multilink showed high bond strength and mixed failure, which was occurred with a thin layer of luting resin cement before thermocycling and gradually increased adhesive failure along the dentin surface after thermocycling.

The bonding performance of resin cement can be affected by application procedure and chemical composition. Composite based-resin cement showed higher bond strength and durability than adhesive based-resin cement.

Citations

Citations to this article as recorded by  
  • Effect of surface treatment of FRC-Post on bonding strength to resin cements
    Chan-Hyun Park, Se-Hee Park, Jin-Woo Kim, Kyung-Mo Cho
    Journal of Korean Academy of Conservative Dentistry.2011; 36(2): 125.     CrossRef
  • Physical properties of different self-adhesive resin cements and their shear bond strength on lithium disilicate ceramic and dentin
    Hye-Jin Shin, Chang-Kyu Song, Se-Hee Partk, Jin-Woo Kim, Kyung-Mo Cho
    Journal of Korean Academy of Conservative Dentistry.2009; 34(3): 184.     CrossRef
  • Effect of a desensitizer on dentinal bond strength in cementation of composite resin inlay
    Sae-Hee Han, Young-Gon Cho
    Journal of Korean Academy of Conservative Dentistry.2009; 34(3): 223.     CrossRef
  • Effect of the additional etching procedure on push-out bond strength of one-step resin cement
    Soon-Il Kang, Jeong-Kil Park, Bock Hur, Hyeon-Cheol Kim
    Journal of Korean Academy of Conservative Dentistry.2008; 33(5): 443.     CrossRef
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