Proposals for Optimization of Laser Welding in Prosthetic Dentistry
Identifieur interne : 005091 ( Main/Exploration ); précédent : 005090; suivant : 005092Proposals for Optimization of Laser Welding in Prosthetic Dentistry
Auteurs : Caroline Bertrand [France] ; Angeline Poulon-Quintin [France]Source :
- Journal of Prosthodontics [ 1059-941X ] ; 2010-01.
Descripteurs français
English descriptors
- KwdEn :
- Alloy, American college, Argon shielding atmosphere, Bertrand, Biomed mater, Chemical composition, Cocr, Cocr alloys, Defect, Dent, Dent mater, Dental alloy, Dental alloys, Dental framework, Dental labor, Dental laser welding technique, Dental technicians, Dentistry, Different pulse shapes, Energy level, Energy output, Esthetic aspect, Focal point, Focal spot, Focal spot size, Fusion bath, Gold alloy, Gold alloys, Half pieces, High peak power, High temperature, Joint spot, Larger spot size, Laser, Laser beam, Laser chamber, Laser conditions, Laser device, Laser shot, Laser wavelength, Laser welding, Ller, Macro cavities, Master cast, Mechanical properties, Metal composition, Metallurgical effects, Microstructure, Molten area, Narrow contact, Nonprecious alloys, Opposite position, Optic laser tech, Orthodontic wires, Other parameters, Other side, Parameter, Parent metal, Peak power, Penetration depth, Porosity, Precious alloys, Procedural report, Process parameters, Prosthet, Prosthet dent, Prosthetic, Prosthetic dentistry, Prosthodontics, Prosthodontics figure, Prosthodontist, Prosthodontists bertrand, Pulse, Pulse duration, Pulse energy, Pulse repetition rate, Pulse shape, Rectangular pulse shape, Small cracks, Spot size, Spot welds, Spots shot, Technical aspects, Thermal conductivity, Thermophysical properties, Titanium, Utmost care, Welding, Welding area, Welding depth, Welding environment, Welding parameters, Welding procedure, Welding process, Work piece.
- Teeft :
- Alloy, American college, Argon shielding atmosphere, Bertrand, Biomed mater, Chemical composition, Cocr, Cocr alloys, Defect, Dent, Dent mater, Dental alloy, Dental alloys, Dental framework, Dental labor, Dental laser welding technique, Dental technicians, Dentistry, Different pulse shapes, Energy level, Energy output, Esthetic aspect, Focal point, Focal spot, Focal spot size, Fusion bath, Gold alloy, Gold alloys, Half pieces, High peak power, High temperature, Joint spot, Larger spot size, Laser, Laser beam, Laser chamber, Laser conditions, Laser device, Laser shot, Laser wavelength, Laser welding, Ller, Macro cavities, Master cast, Mechanical properties, Metal composition, Metallurgical effects, Microstructure, Molten area, Narrow contact, Nonprecious alloys, Opposite position, Optic laser tech, Orthodontic wires, Other parameters, Other side, Parameter, Parent metal, Peak power, Penetration depth, Porosity, Precious alloys, Procedural report, Process parameters, Prosthet, Prosthet dent, Prosthetic, Prosthetic dentistry, Prosthodontics, Prosthodontics figure, Prosthodontist, Prosthodontists bertrand, Pulse, Pulse duration, Pulse energy, Pulse repetition rate, Pulse shape, Rectangular pulse shape, Small cracks, Spot size, Spot welds, Spots shot, Technical aspects, Thermal conductivity, Thermophysical properties, Titanium, Utmost care, Welding, Welding area, Welding depth, Welding environment, Welding parameters, Welding procedure, Welding process, Work piece.
Abstract
This paper points out each key parameter involved in laser welding and discusses the parameters’ effects on weld microstructure and defects detected inside the weld. Solutions are proposed to adjust the parameters to provide an optimal dental assembly. Metallurgical effects as well as defects are briefly discussed. A welding procedure adapted to different compositions of dental alloys is proposed.
Url:
DOI: 10.1111/j.1532-849X.2009.00523.x
Affiliations:
- France
- Aquitaine, Nouvelle-Aquitaine, Provence-Alpes-Côte d'Azur
- Bordeaux, Nice
- Université de Bordeaux
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technique</term><term>Dental technicians</term><term>Dentistry</term><term>Different pulse shapes</term><term>Energy level</term><term>Energy output</term><term>Esthetic aspect</term><term>Focal point</term><term>Focal spot</term><term>Focal spot size</term><term>Fusion bath</term><term>Gold alloy</term><term>Gold alloys</term><term>Half pieces</term><term>High peak power</term><term>High temperature</term><term>Joint spot</term><term>Larger spot size</term><term>Laser</term><term>Laser beam</term><term>Laser chamber</term><term>Laser conditions</term><term>Laser device</term><term>Laser shot</term><term>Laser wavelength</term><term>Laser welding</term><term>Ller</term><term>Macro cavities</term><term>Master cast</term><term>Mechanical properties</term><term>Metal composition</term><term>Metallurgical effects</term><term>Microstructure</term><term>Molten area</term><term>Narrow contact</term><term>Nonprecious alloys</term><term>Opposite position</term><term>Optic laser tech</term><term>Orthodontic wires</term><term>Other parameters</term><term>Other side</term><term>Parameter</term><term>Parent metal</term><term>Peak power</term><term>Penetration depth</term><term>Porosity</term><term>Precious alloys</term><term>Procedural report</term><term>Process parameters</term><term>Prosthet</term><term>Prosthet dent</term><term>Prosthetic</term><term>Prosthetic dentistry</term><term>Prosthodontics</term><term>Prosthodontics figure</term><term>Prosthodontist</term><term>Prosthodontists bertrand</term><term>Pulse</term><term>Pulse duration</term><term>Pulse energy</term><term>Pulse repetition rate</term><term>Pulse shape</term><term>Rectangular pulse shape</term><term>Small cracks</term><term>Spot size</term><term>Spot welds</term><term>Spots shot</term><term>Technical aspects</term><term>Thermal conductivity</term><term>Thermophysical properties</term><term>Titanium</term><term>Utmost care</term><term>Welding</term><term>Welding area</term><term>Welding depth</term><term>Welding environment</term><term>Welding parameters</term><term>Welding procedure</term><term>Welding process</term><term>Work piece</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Alloy</term><term>American college</term><term>Argon shielding atmosphere</term><term>Bertrand</term><term>Biomed mater</term><term>Chemical composition</term><term>Cocr</term><term>Cocr alloys</term><term>Defect</term><term>Dent</term><term>Dent mater</term><term>Dental alloy</term><term>Dental alloys</term><term>Dental framework</term><term>Dental labor</term><term>Dental laser welding technique</term><term>Dental technicians</term><term>Dentistry</term><term>Different pulse shapes</term><term>Energy level</term><term>Energy output</term><term>Esthetic aspect</term><term>Focal point</term><term>Focal spot</term><term>Focal spot size</term><term>Fusion bath</term><term>Gold alloy</term><term>Gold alloys</term><term>Half pieces</term><term>High peak power</term><term>High temperature</term><term>Joint spot</term><term>Larger spot size</term><term>Laser</term><term>Laser beam</term><term>Laser chamber</term><term>Laser conditions</term><term>Laser device</term><term>Laser shot</term><term>Laser wavelength</term><term>Laser welding</term><term>Ller</term><term>Macro cavities</term><term>Master cast</term><term>Mechanical properties</term><term>Metal composition</term><term>Metallurgical effects</term><term>Microstructure</term><term>Molten area</term><term>Narrow contact</term><term>Nonprecious alloys</term><term>Opposite position</term><term>Optic laser tech</term><term>Orthodontic wires</term><term>Other parameters</term><term>Other side</term><term>Parameter</term><term>Parent metal</term><term>Peak power</term><term>Penetration depth</term><term>Porosity</term><term>Precious alloys</term><term>Procedural report</term><term>Process parameters</term><term>Prosthet</term><term>Prosthet dent</term><term>Prosthetic</term><term>Prosthetic dentistry</term><term>Prosthodontics</term><term>Prosthodontics figure</term><term>Prosthodontist</term><term>Prosthodontists bertrand</term><term>Pulse</term><term>Pulse duration</term><term>Pulse energy</term><term>Pulse repetition rate</term><term>Pulse shape</term><term>Rectangular pulse shape</term><term>Small cracks</term><term>Spot size</term><term>Spot welds</term><term>Spots shot</term><term>Technical aspects</term><term>Thermal conductivity</term><term>Thermophysical properties</term><term>Titanium</term><term>Utmost care</term><term>Welding</term><term>Welding area</term><term>Welding depth</term><term>Welding environment</term><term>Welding parameters</term><term>Welding procedure</term><term>Welding process</term><term>Work piece</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Alliage</term><term>Titane</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">This paper points out each key parameter involved in laser welding and discusses the parameters’ effects on weld microstructure and defects detected inside the weld. Solutions are proposed to adjust the parameters to provide an optimal dental assembly. Metallurgical effects as well as defects are briefly discussed. A welding procedure adapted to different compositions of dental alloys is proposed.</div></front></TEI><affiliations><list><country><li>France</li></country><region><li>Aquitaine</li><li>Nouvelle-Aquitaine</li><li>Provence-Alpes-Côte d'Azur</li></region><settlement><li>Bordeaux</li><li>Nice</li></settlement><orgName><li>Université de Bordeaux</li></orgName></list><tree><country name="France"><region name="Provence-Alpes-Côte d'Azur"><name sortKey="Bertrand, Caroline" sort="Bertrand, Caroline" uniqKey="Bertrand C" first="Caroline" last="Bertrand">Caroline Bertrand</name></region><name sortKey="Poulon Uintin, Angeline" sort="Poulon Uintin, Angeline" uniqKey="Poulon Uintin A" first="Angeline" last="Poulon-Quintin">Angeline Poulon-Quintin</name></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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