Force Needed to Separate Acrylic Resin from Primed and Unprimed Frameworks of Different Designs
Identifieur interne : 005280 ( Main/Exploration ); précédent : 005279; suivant : 005281Force Needed to Separate Acrylic Resin from Primed and Unprimed Frameworks of Different Designs
Auteurs : Grace Lee [États-Unis] ; Robert L. Engelmeier [États-Unis] ; Maria Gonzalez [États-Unis] ; John M. Powers [États-Unis] ; Leticia F. Perezous [États-Unis] ; Kathy L. O Eefe [États-Unis]Source :
- Journal of Prosthodontics [ 1059-941X ] ; 2010-01.
Descripteurs français
English descriptors
- KwdEn :
- Acidic primers, Acrylic, Acrylic resin, Acrylic retention designs, Adhesive primers, Adhesive systems, Alloy, American college, Bead, Bead retention, Bego, Bond strength, Brass metal master cast, Cast titanium, Cohesive bond failure, Cohesive failure, Cohesive failures, Crosshead speed, Dent, Dent mater, Denture, Denture alloy, Denture base resin, Framework designs, Frameworks figure, Functional monomers, Greater separation force, Greater separation force values, High susceptibility, Higher occurrence, Highest bond strength, Lattice, Lattice design, Lattice retention, Master cast, Mesh, Mesh retention, Metal alloys, Metal failure, Metal master cast, Metal plate, Metal primer, Metal primers, Opaque resin, Oral rehabil, Permanent deformation, Polymethyl methacrylate, Precious metal alloys, Preheated furnace, Primer, Prosthet, Prosthet dent, Prosthodont rest dent, Prosthodontics, Resin, Retention, Retentive mesh specimens, Same design, Separate acrylic resin, Separation force, Separation forces, Shear bond strength, Shear bond strengths, Silicone mold, Smooth metal plate, Standard deviations, Strongest retention, Sulfur atom, Test frameworks, Test specimens, Thermal expansion, Thiophosphoric part, Titanium, Titanium alloy, Universal testing machine, Unprimed, Unprimed specimens.
- Teeft :
- Acidic primers, Acrylic, Acrylic resin, Acrylic retention designs, Adhesive primers, Adhesive systems, Alloy, American college, Bead, Bead retention, Bego, Bond strength, Brass metal master cast, Cast titanium, Cohesive bond failure, Cohesive failure, Cohesive failures, Crosshead speed, Dent, Dent mater, Denture, Denture alloy, Denture base resin, Framework designs, Frameworks figure, Functional monomers, Greater separation force, Greater separation force values, High susceptibility, Higher occurrence, Highest bond strength, Lattice, Lattice design, Lattice retention, Master cast, Mesh, Mesh retention, Metal alloys, Metal failure, Metal master cast, Metal plate, Metal primer, Metal primers, Opaque resin, Oral rehabil, Permanent deformation, Polymethyl methacrylate, Precious metal alloys, Preheated furnace, Primer, Prosthet, Prosthet dent, Prosthodont rest dent, Prosthodontics, Resin, Retention, Retentive mesh specimens, Same design, Separate acrylic resin, Separation force, Separation forces, Shear bond strength, Shear bond strengths, Silicone mold, Smooth metal plate, Standard deviations, Strongest retention, Sulfur atom, Test frameworks, Test specimens, Thermal expansion, Thiophosphoric part, Titanium, Titanium alloy, Universal testing machine, Unprimed, Unprimed specimens.
Abstract
Purpose: Poor mechanical and chemical bondings at the interface between a framework and denture base resin have been responsible for many removable partial denture failures. This study tested the force necessary to separate acrylic resin bases from test frameworks using different acrylic retention designs (smooth metal plate, metal plate with bead retention, lattice retention, and mesh retention). The force needed to separate acrylic resin from primed test frameworks was also measured.
Url:
DOI: 10.1111/j.1532-849X.2009.00503.x
Affiliations:
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<term>Acrylic</term>
<term>Acrylic resin</term>
<term>Acrylic retention designs</term>
<term>Adhesive primers</term>
<term>Adhesive systems</term>
<term>Alloy</term>
<term>American college</term>
<term>Bead</term>
<term>Bead retention</term>
<term>Bego</term>
<term>Bond strength</term>
<term>Brass metal master cast</term>
<term>Cast titanium</term>
<term>Cohesive bond failure</term>
<term>Cohesive failure</term>
<term>Cohesive failures</term>
<term>Crosshead speed</term>
<term>Dent</term>
<term>Dent mater</term>
<term>Denture</term>
<term>Denture alloy</term>
<term>Denture base resin</term>
<term>Framework designs</term>
<term>Frameworks figure</term>
<term>Functional monomers</term>
<term>Greater separation force</term>
<term>Greater separation force values</term>
<term>High susceptibility</term>
<term>Higher occurrence</term>
<term>Highest bond strength</term>
<term>Lattice</term>
<term>Lattice design</term>
<term>Lattice retention</term>
<term>Master cast</term>
<term>Mesh</term>
<term>Mesh retention</term>
<term>Metal alloys</term>
<term>Metal failure</term>
<term>Metal master cast</term>
<term>Metal plate</term>
<term>Metal primer</term>
<term>Metal primers</term>
<term>Opaque resin</term>
<term>Oral rehabil</term>
<term>Permanent deformation</term>
<term>Polymethyl methacrylate</term>
<term>Precious metal alloys</term>
<term>Preheated furnace</term>
<term>Primer</term>
<term>Prosthet</term>
<term>Prosthet dent</term>
<term>Prosthodont rest dent</term>
<term>Prosthodontics</term>
<term>Resin</term>
<term>Retention</term>
<term>Retentive mesh specimens</term>
<term>Same design</term>
<term>Separate acrylic resin</term>
<term>Separation force</term>
<term>Separation forces</term>
<term>Shear bond strength</term>
<term>Shear bond strengths</term>
<term>Silicone mold</term>
<term>Smooth metal plate</term>
<term>Standard deviations</term>
<term>Strongest retention</term>
<term>Sulfur atom</term>
<term>Test frameworks</term>
<term>Test specimens</term>
<term>Thermal expansion</term>
<term>Thiophosphoric part</term>
<term>Titanium</term>
<term>Titanium alloy</term>
<term>Universal testing machine</term>
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<term>Unprimed specimens</term>
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<term>Acrylic</term>
<term>Acrylic resin</term>
<term>Acrylic retention designs</term>
<term>Adhesive primers</term>
<term>Adhesive systems</term>
<term>Alloy</term>
<term>American college</term>
<term>Bead</term>
<term>Bead retention</term>
<term>Bego</term>
<term>Bond strength</term>
<term>Brass metal master cast</term>
<term>Cast titanium</term>
<term>Cohesive bond failure</term>
<term>Cohesive failure</term>
<term>Cohesive failures</term>
<term>Crosshead speed</term>
<term>Dent</term>
<term>Dent mater</term>
<term>Denture</term>
<term>Denture alloy</term>
<term>Denture base resin</term>
<term>Framework designs</term>
<term>Frameworks figure</term>
<term>Functional monomers</term>
<term>Greater separation force</term>
<term>Greater separation force values</term>
<term>High susceptibility</term>
<term>Higher occurrence</term>
<term>Highest bond strength</term>
<term>Lattice</term>
<term>Lattice design</term>
<term>Lattice retention</term>
<term>Master cast</term>
<term>Mesh</term>
<term>Mesh retention</term>
<term>Metal alloys</term>
<term>Metal failure</term>
<term>Metal master cast</term>
<term>Metal plate</term>
<term>Metal primer</term>
<term>Metal primers</term>
<term>Opaque resin</term>
<term>Oral rehabil</term>
<term>Permanent deformation</term>
<term>Polymethyl methacrylate</term>
<term>Precious metal alloys</term>
<term>Preheated furnace</term>
<term>Primer</term>
<term>Prosthet</term>
<term>Prosthet dent</term>
<term>Prosthodont rest dent</term>
<term>Prosthodontics</term>
<term>Resin</term>
<term>Retention</term>
<term>Retentive mesh specimens</term>
<term>Same design</term>
<term>Separate acrylic resin</term>
<term>Separation force</term>
<term>Separation forces</term>
<term>Shear bond strength</term>
<term>Shear bond strengths</term>
<term>Silicone mold</term>
<term>Smooth metal plate</term>
<term>Standard deviations</term>
<term>Strongest retention</term>
<term>Sulfur atom</term>
<term>Test frameworks</term>
<term>Test specimens</term>
<term>Thermal expansion</term>
<term>Thiophosphoric part</term>
<term>Titanium</term>
<term>Titanium alloy</term>
<term>Universal testing machine</term>
<term>Unprimed</term>
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<front><div type="abstract">Purpose: Poor mechanical and chemical bondings at the interface between a framework and denture base resin have been responsible for many removable partial denture failures. This study tested the force necessary to separate acrylic resin bases from test frameworks using different acrylic retention designs (smooth metal plate, metal plate with bead retention, lattice retention, and mesh retention). The force needed to separate acrylic resin from primed test frameworks was also measured.</div>
</front>
</TEI>
<affiliations><list><country><li>États-Unis</li>
</country>
<region><li>Texas</li>
</region>
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<tree><country name="États-Unis"><region name="Texas"><name sortKey="Lee, Grace" sort="Lee, Grace" uniqKey="Lee G" first="Grace" last="Lee">Grace Lee</name>
</region>
<name sortKey="Engelmeier, Robert L" sort="Engelmeier, Robert L" uniqKey="Engelmeier R" first="Robert L." last="Engelmeier">Robert L. Engelmeier</name>
<name sortKey="Gonzalez, Maria" sort="Gonzalez, Maria" uniqKey="Gonzalez M" first="Maria" last="Gonzalez">Maria Gonzalez</name>
<name sortKey="O Eefe, Kathy L" sort="O Eefe, Kathy L" uniqKey="O Eefe K" first="Kathy L." last="O Eefe">Kathy L. O Eefe</name>
<name sortKey="Perezous, Leticia F" sort="Perezous, Leticia F" uniqKey="Perezous L" first="Leticia F." last="Perezous">Leticia F. Perezous</name>
<name sortKey="Powers, John M" sort="Powers, John M" uniqKey="Powers J" first="John M." last="Powers">John M. Powers</name>
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