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Flexural resistance of CAD/CAM blocks. Part 3: polymer-based restorative materials for permanent restorations

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Flexural resistance of CAD/CAM blocks. Part 3: polymer-based restorative materials for permanent restorations. / Vichi, Alessandro; Goracci, Cecilia; Carrabba, Michele; Tozzi, Gianluca; Louca, Chris.

In: American Journal of Dentistry, 03.06.2020.

Research output: Contribution to journalArticle

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APA

Vichi, A., Goracci, C., Carrabba, M., Tozzi, G., & Louca, C. (Accepted/In press). Flexural resistance of CAD/CAM blocks. Part 3: polymer-based restorative materials for permanent restorations. American Journal of Dentistry.

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Author

Vichi, Alessandro ; Goracci, Cecilia ; Carrabba, Michele ; Tozzi, Gianluca ; Louca, Chris. / Flexural resistance of CAD/CAM blocks. Part 3: polymer-based restorative materials for permanent restorations. In: American Journal of Dentistry. 2020.

Bibtex

@article{3f3362bf735841d5b547cd0801a1a15a,
title = "Flexural resistance of CAD/CAM blocks. Part 3: polymer-based restorative materials for permanent restorations",
abstract = "Purpose: Concurrently with the growing interest in CAD/CAM systems, several new materials of different chemical nature have been made available. As an alternative to ceramics, numerous polymer-based materials have recently been proposed for permanent prosthetic restorations. Aim of this study was to test the CAD/CAM polymer-based materials available on the market, comparing mean flexural strength, Weibull characteristic strength and Weibull modulus.Methods: Seven types of polymer-based blocks were tested: Lava Ultimate, 3M; Brilliant Crios, Coltene; Cerasmart, GC; Block HC, Shofu; Katana Avencia, Noritake; Grandio Blocs, Voco; Tetric CAD, Ivoclar-Vivadent. Specimens were cut out from blocks, finished, polished, and tested in a three-point bending test apparatus until failure (n=30). Flexural strength, Weibull characteristic strength, and Weibull modulus were calculated. Flexural strength data were statistically analyzed. Anova on Ranks was applied, followed by the Dunn{\textquoteright}s test for post hoc comparisons (p=0.05).Results: Flexural strength values (MPa) were measured (mean±standard deviation). Different letters in brackets label statistically significant differences: Grandio Blocs 266±24(a), Brilliant Crios 259±21(ab); Tetric CAD 254±15(ab); Katana Avencia 241±29(bc); Cerasmart 221±24(cd); Lava Ultimate 196±23(de); Block HC 139±10(e). All the tested materials had flexural strengths greater than 100 MPa, thereby satisfying the requirements of ISO standards for polymer-based materials. For all the tested materials the Weibull characteristic strength was greater than 100 MPa. Weibull modulus ranged between 21.20 (Tetric CAD) and 9.09 (Katana Avencia).Clinical significance: even though all the CAD/CAM polymer-based materials marketed in blocks tested in the present study satisfy the requirements of ISO standard for polymer-based materials, their flexural resistance differs significantly. The data presented in the study are useful to clinicians to select the most appropriate materials for each clinical case.",
author = "Alessandro Vichi and Cecilia Goracci and Michele Carrabba and Gianluca Tozzi and Chris Louca",
year = "2020",
month = jun,
day = "3",
language = "English",
journal = "American Journal of Dentistry",
issn = "0894-8275",
publisher = "Mosher and Linder, Inc",

}

RIS

TY - JOUR

T1 - Flexural resistance of CAD/CAM blocks. Part 3: polymer-based restorative materials for permanent restorations

AU - Vichi, Alessandro

AU - Goracci, Cecilia

AU - Carrabba, Michele

AU - Tozzi, Gianluca

AU - Louca, Chris

PY - 2020/6/3

Y1 - 2020/6/3

N2 - Purpose: Concurrently with the growing interest in CAD/CAM systems, several new materials of different chemical nature have been made available. As an alternative to ceramics, numerous polymer-based materials have recently been proposed for permanent prosthetic restorations. Aim of this study was to test the CAD/CAM polymer-based materials available on the market, comparing mean flexural strength, Weibull characteristic strength and Weibull modulus.Methods: Seven types of polymer-based blocks were tested: Lava Ultimate, 3M; Brilliant Crios, Coltene; Cerasmart, GC; Block HC, Shofu; Katana Avencia, Noritake; Grandio Blocs, Voco; Tetric CAD, Ivoclar-Vivadent. Specimens were cut out from blocks, finished, polished, and tested in a three-point bending test apparatus until failure (n=30). Flexural strength, Weibull characteristic strength, and Weibull modulus were calculated. Flexural strength data were statistically analyzed. Anova on Ranks was applied, followed by the Dunn’s test for post hoc comparisons (p=0.05).Results: Flexural strength values (MPa) were measured (mean±standard deviation). Different letters in brackets label statistically significant differences: Grandio Blocs 266±24(a), Brilliant Crios 259±21(ab); Tetric CAD 254±15(ab); Katana Avencia 241±29(bc); Cerasmart 221±24(cd); Lava Ultimate 196±23(de); Block HC 139±10(e). All the tested materials had flexural strengths greater than 100 MPa, thereby satisfying the requirements of ISO standards for polymer-based materials. For all the tested materials the Weibull characteristic strength was greater than 100 MPa. Weibull modulus ranged between 21.20 (Tetric CAD) and 9.09 (Katana Avencia).Clinical significance: even though all the CAD/CAM polymer-based materials marketed in blocks tested in the present study satisfy the requirements of ISO standard for polymer-based materials, their flexural resistance differs significantly. The data presented in the study are useful to clinicians to select the most appropriate materials for each clinical case.

AB - Purpose: Concurrently with the growing interest in CAD/CAM systems, several new materials of different chemical nature have been made available. As an alternative to ceramics, numerous polymer-based materials have recently been proposed for permanent prosthetic restorations. Aim of this study was to test the CAD/CAM polymer-based materials available on the market, comparing mean flexural strength, Weibull characteristic strength and Weibull modulus.Methods: Seven types of polymer-based blocks were tested: Lava Ultimate, 3M; Brilliant Crios, Coltene; Cerasmart, GC; Block HC, Shofu; Katana Avencia, Noritake; Grandio Blocs, Voco; Tetric CAD, Ivoclar-Vivadent. Specimens were cut out from blocks, finished, polished, and tested in a three-point bending test apparatus until failure (n=30). Flexural strength, Weibull characteristic strength, and Weibull modulus were calculated. Flexural strength data were statistically analyzed. Anova on Ranks was applied, followed by the Dunn’s test for post hoc comparisons (p=0.05).Results: Flexural strength values (MPa) were measured (mean±standard deviation). Different letters in brackets label statistically significant differences: Grandio Blocs 266±24(a), Brilliant Crios 259±21(ab); Tetric CAD 254±15(ab); Katana Avencia 241±29(bc); Cerasmart 221±24(cd); Lava Ultimate 196±23(de); Block HC 139±10(e). All the tested materials had flexural strengths greater than 100 MPa, thereby satisfying the requirements of ISO standards for polymer-based materials. For all the tested materials the Weibull characteristic strength was greater than 100 MPa. Weibull modulus ranged between 21.20 (Tetric CAD) and 9.09 (Katana Avencia).Clinical significance: even though all the CAD/CAM polymer-based materials marketed in blocks tested in the present study satisfy the requirements of ISO standard for polymer-based materials, their flexural resistance differs significantly. The data presented in the study are useful to clinicians to select the most appropriate materials for each clinical case.

M3 - Article

JO - American Journal of Dentistry

JF - American Journal of Dentistry

SN - 0894-8275

ER -

ID: 21415827