Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated Aging

Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated Aging

Abstract This study evaluated the effect of the accelerated artificial aging (AAA) on feldspar ceramic strength and the reinforcing effect promoted by adhesive cementation with resin luting agent. One hundred twenty feldspar ceramic disks were obtained. Sixty disks were acid-etched, silanized, and coated with an experimental resin luting agent simulating the adhesive luting procedures. Four groups were created (n=30): uncoated ceramic (control group), uncoated ceramic submitted to AAA, ceramic coated with resin luting agent, and coated ceramic submitted to AAA. Biaxial flexural testing with ball-on-ring setup was carried out. Biaxial flexural strength (s bf , MPa), characteristic strength (s 0 , MPa), and Weibull modulus (m) were calculated for axial positions z=0 (ceramic surface) and z=−t2 (luting agent surface). Data of s bf at positions z=0 and z=-t2 were separately submitted to statistical analyses (a=0.05). The uncoated ceramic submitted to AAA had no significant difference in s bf and s 0 compared with the control group. Resin coating of the ceramic increased s bf and s 0 at z=0. The AAA increased the s bf and s 0 for the resin-coated ceramic specimens at z=0 and also the s 0 at axial position z=-t2. The structural reliability at z=0 and z=-t2 was not influenced by the variables tested. In conclusion, resin coating improved the mechanical strength of the feldspar ceramic. The AAA procedure was not effective in aging the uncoated or resin-coated feldspar ceramic specimens.

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Main Authors: Barbon,Fabíola Jardim, Moraes,Rafael Ratto, Boscato,Noéli, Alessandretti,Rodrigo, Spazzin,Aloísio Oro
Format: Digital revista
Language:English
Published: Fundação Odontológica de Ribeirão Preto 2018
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-64402018000200202
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spelling oai:scielo:S0103-644020180002002022018-06-07Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated AgingBarbon,Fabíola JardimMoraes,Rafael RattoBoscato,NoéliAlessandretti,RodrigoSpazzin,Aloísio Oro ceramic resin luting agent mechanical strength Weibull analysis. Abstract This study evaluated the effect of the accelerated artificial aging (AAA) on feldspar ceramic strength and the reinforcing effect promoted by adhesive cementation with resin luting agent. One hundred twenty feldspar ceramic disks were obtained. Sixty disks were acid-etched, silanized, and coated with an experimental resin luting agent simulating the adhesive luting procedures. Four groups were created (n=30): uncoated ceramic (control group), uncoated ceramic submitted to AAA, ceramic coated with resin luting agent, and coated ceramic submitted to AAA. Biaxial flexural testing with ball-on-ring setup was carried out. Biaxial flexural strength (s bf , MPa), characteristic strength (s 0 , MPa), and Weibull modulus (m) were calculated for axial positions z=0 (ceramic surface) and z=−t2 (luting agent surface). Data of s bf at positions z=0 and z=-t2 were separately submitted to statistical analyses (a=0.05). The uncoated ceramic submitted to AAA had no significant difference in s bf and s 0 compared with the control group. Resin coating of the ceramic increased s bf and s 0 at z=0. The AAA increased the s bf and s 0 for the resin-coated ceramic specimens at z=0 and also the s 0 at axial position z=-t2. The structural reliability at z=0 and z=-t2 was not influenced by the variables tested. In conclusion, resin coating improved the mechanical strength of the feldspar ceramic. The AAA procedure was not effective in aging the uncoated or resin-coated feldspar ceramic specimens.info:eu-repo/semantics/openAccessFundação Odontológica de Ribeirão PretoBrazilian Dental Journal v.29 n.2 20182018-03-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-64402018000200202en10.1590/0103-6440201801896
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Barbon,Fabíola Jardim
Moraes,Rafael Ratto
Boscato,Noéli
Alessandretti,Rodrigo
Spazzin,Aloísio Oro
spellingShingle Barbon,Fabíola Jardim
Moraes,Rafael Ratto
Boscato,Noéli
Alessandretti,Rodrigo
Spazzin,Aloísio Oro
Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated Aging
author_facet Barbon,Fabíola Jardim
Moraes,Rafael Ratto
Boscato,Noéli
Alessandretti,Rodrigo
Spazzin,Aloísio Oro
author_sort Barbon,Fabíola Jardim
title Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated Aging
title_short Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated Aging
title_full Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated Aging
title_fullStr Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated Aging
title_full_unstemmed Feldspar Ceramic Strength and The Reinforcing Effect by Adhesive Cementation Under Accelerated Aging
title_sort feldspar ceramic strength and the reinforcing effect by adhesive cementation under accelerated aging
description Abstract This study evaluated the effect of the accelerated artificial aging (AAA) on feldspar ceramic strength and the reinforcing effect promoted by adhesive cementation with resin luting agent. One hundred twenty feldspar ceramic disks were obtained. Sixty disks were acid-etched, silanized, and coated with an experimental resin luting agent simulating the adhesive luting procedures. Four groups were created (n=30): uncoated ceramic (control group), uncoated ceramic submitted to AAA, ceramic coated with resin luting agent, and coated ceramic submitted to AAA. Biaxial flexural testing with ball-on-ring setup was carried out. Biaxial flexural strength (s bf , MPa), characteristic strength (s 0 , MPa), and Weibull modulus (m) were calculated for axial positions z=0 (ceramic surface) and z=−t2 (luting agent surface). Data of s bf at positions z=0 and z=-t2 were separately submitted to statistical analyses (a=0.05). The uncoated ceramic submitted to AAA had no significant difference in s bf and s 0 compared with the control group. Resin coating of the ceramic increased s bf and s 0 at z=0. The AAA increased the s bf and s 0 for the resin-coated ceramic specimens at z=0 and also the s 0 at axial position z=-t2. The structural reliability at z=0 and z=-t2 was not influenced by the variables tested. In conclusion, resin coating improved the mechanical strength of the feldspar ceramic. The AAA procedure was not effective in aging the uncoated or resin-coated feldspar ceramic specimens.
publisher Fundação Odontológica de Ribeirão Preto
publishDate 2018
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0103-64402018000200202
work_keys_str_mv AT barbonfabiolajardim feldsparceramicstrengthandthereinforcingeffectbyadhesivecementationunderacceleratedaging
AT moraesrafaelratto feldsparceramicstrengthandthereinforcingeffectbyadhesivecementationunderacceleratedaging
AT boscatonoeli feldsparceramicstrengthandthereinforcingeffectbyadhesivecementationunderacceleratedaging
AT alessandrettirodrigo feldsparceramicstrengthandthereinforcingeffectbyadhesivecementationunderacceleratedaging
AT spazzinaloisiooro feldsparceramicstrengthandthereinforcingeffectbyadhesivecementationunderacceleratedaging
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