<i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system

<i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system

<b>Background:</b> Restorative materials must be capable not only of restoring the patient&#x2032;s masticatory function, but also to rescue the self-esteem of those maculated by a disharmonious smile. Among the esthetic materials available on the market, the choice frequently lies...

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Main Authors: Montenegro Alexandre, do Couto Cintia, Ventura Paulo, Gouvea Cresus, Machado Aldir
Format: Article
Language:English
Published: Wolters Kluwer Medknow Publications 2010-01-01
Series:Indian Journal of Dental Research
Subjects:
Ceramics
compression resistance
resin composites
Online Access:http://www.ijdr.in/article.asp?issn=0970-9290;year=2010;volume=21;issue=1;spage=68;epage=71;aulast=Montenegro
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spelling doaj-d9fbc011b46a4846a4f16f31b005c1112020-11-24T23:07:26ZengWolters Kluwer Medknow PublicationsIndian Journal of Dental Research0970-92901998-36032010-01-012116871<i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic systemMontenegro Alexandredo Couto CintiaVentura PauloGouvea CresusMachado Aldir<b>Background:</b> Restorative materials must be capable not only of restoring the patient&#x2032;s masticatory function, but also to rescue the self-esteem of those maculated by a disharmonious smile. Among the esthetic materials available on the market, the choice frequently lies between ceramic or indirect laboratory resin restorations. <b> Aim: </b> This study assessed the resistance to compression of two laboratory resins found on the market, namely Artglass<sup> &#x00AE;</sup> and Targis<sup> &#x00AE;</sup> , considering Omega 900<sup> &#x00AE;</sup> ceramic from Vita as control. <b> Materials and Methods: </b> With the aid of stainless steel matrices, with internal dimensions of 8.0 mm diameter at the base, 9.0 mm in the top portion and 4.0 mm height, 15 test specimens were made, being 5 of each material to be tested. The test specimens were kept in distilled water for 72 hours and submitted to an axial load by the action of a point with a rounded tip 2 mm in diameter, adapted to an EMIC 500 universal test machine. The compression speed was 0.5 mm/min, with a load cell capacity of 200 Kgf. <b> Results: </b> The means of the results were calculated in kilogram-force (Kgf). The results found were treated by analysis of variance (ANOVA) and the differences found among the groups were identified by the Tukey test (5&#x0025;). <b>Conclusion: </b> It was observed that the material Omega 900<sup> &#x00AE;</sup> offered significantly greater resistance to compression than the other two materials, which did not present statistically significant difference between them.http://www.ijdr.in/article.asp?issn=0970-9290;year=2010;volume=21;issue=1;spage=68;epage=71;aulast=MontenegroCeramicscompression resistanceresin composites
collection DOAJ
language English
format Article
sources DOAJ
author Montenegro Alexandre
do Couto Cintia
Ventura Paulo
Gouvea Cresus
Machado Aldir
spellingShingle Montenegro Alexandre
do Couto Cintia
Ventura Paulo
Gouvea Cresus
Machado Aldir
<i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system
Indian Journal of Dental Research
Ceramics
compression resistance
resin composites
author_facet Montenegro Alexandre
do Couto Cintia
Ventura Paulo
Gouvea Cresus
Machado Aldir
author_sort Montenegro Alexandre
title <i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system
title_short <i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system
title_full <i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system
title_fullStr <i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system
title_full_unstemmed <i>In vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system
title_sort <i>in vitro</i> comparative analysis of resistance to compression of laboratory resin composites and a ceramic system
publisher Wolters Kluwer Medknow Publications
series Indian Journal of Dental Research
issn 0970-9290
1998-3603
publishDate 2010-01-01
description <b>Background:</b> Restorative materials must be capable not only of restoring the patient&#x2032;s masticatory function, but also to rescue the self-esteem of those maculated by a disharmonious smile. Among the esthetic materials available on the market, the choice frequently lies between ceramic or indirect laboratory resin restorations. <b> Aim: </b> This study assessed the resistance to compression of two laboratory resins found on the market, namely Artglass<sup> &#x00AE;</sup> and Targis<sup> &#x00AE;</sup> , considering Omega 900<sup> &#x00AE;</sup> ceramic from Vita as control. <b> Materials and Methods: </b> With the aid of stainless steel matrices, with internal dimensions of 8.0 mm diameter at the base, 9.0 mm in the top portion and 4.0 mm height, 15 test specimens were made, being 5 of each material to be tested. The test specimens were kept in distilled water for 72 hours and submitted to an axial load by the action of a point with a rounded tip 2 mm in diameter, adapted to an EMIC 500 universal test machine. The compression speed was 0.5 mm/min, with a load cell capacity of 200 Kgf. <b> Results: </b> The means of the results were calculated in kilogram-force (Kgf). The results found were treated by analysis of variance (ANOVA) and the differences found among the groups were identified by the Tukey test (5&#x0025;). <b>Conclusion: </b> It was observed that the material Omega 900<sup> &#x00AE;</sup> offered significantly greater resistance to compression than the other two materials, which did not present statistically significant difference between them.
topic Ceramics
compression resistance
resin composites
url http://www.ijdr.in/article.asp?issn=0970-9290;year=2010;volume=21;issue=1;spage=68;epage=71;aulast=Montenegro
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