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Your search keyword '"J.T. White"' showing total 3 results
Start Over Author "J.T. White" Journal the journal of prosthetic dentistry
3 results on '"J.T. White"'

1. Effect of air abrasives on marginal configurations of porcelain-fused-to-metal alloys: An SEM analysis

Author

B.E. Kanoy, J.T. White, D.A. Felton, and S.C. Bayne

Subjects
Chamfer, Materials science, Crowns, Post hoc, Surface Properties, Air, Metallurgy, Sem analysis, Dental Porcelain, Metal ceramic, Bevel, Dental Polishing, Abrasion (geology), visual_art, Aluminum Oxide, Microscopy, Electron, Scanning, visual_art.visual_art_medium, Gold Alloys, Chromium Alloys, Glass, Ceramic, Oral Surgery, Dental Cavity Preparation, Dental Alloys, Porcelain fused to metal
Abstract

Air abrasion of castings for metal ceramic crowns is a routine procedure in ceramics laboratories for cleaning, seating, and preparing casts for porcelain application. This technique can result in damage to the margins of castings. This investigation evaluated the extent and significance of this procedure. Marginal abrasion ranged from 5 to 110 microns. ANOVA, followed by Tukey's post hoc evaluation revealed no difference between abrasives, but significant differences were noted among alloys and margin configurations (p less than 0.05). Marginal loss by alloy was as follows: [Jelenko O] greater than [Olympia = Cameo] greater than [Jelstar] greater than [Genesis II]. Marginal loss by marginal configuration was as follows: [beveled shoulder] greater than [chamfer = shoulder]. Significant marginal damage can occur during air abrasion of dental castings.

Published
1991

2. Photoelastic analysis of stress induced from insertion of self-threading retentive pins

Author

J.T. White, G.A. Holland, E.L. Webb, and A.W. Irvin

Subjects
Materials science, Crazing, Surface Properties, Stress induced, Tooth surface, engineering.material, urologic and male genital diseases, Models, Biological, Elasticity, Amalgam (dentistry), medicine.anatomical_structure, Dental Pins, stomatognathic system, Photography, Dentin, medicine, engineering, Threading (manufacturing), Fracture (geology), Stress, Mechanical, Oral Surgery, Composite material, Stress concentration
Abstract

W hen teeth have lost significant amounts of their original structure, it is common to use pins as auxiliary support for the restorative material. Three basic systems are used for the retention of auxiliary pins: (1) cement (threaded or nonthreaded pins are luted into a prepared channel that is slightly larger in diameter than the pin); (2) friction (nonthreaded, tapered pins are forced into a channel that is slightly smaller than the pin); and (3) threads (threaded pins are twisted into a channel that is prepared slightly smaller in diameter than the pin).โ€™ Of the three systems, self-threading pins are used most frequently because of their *excellent retentive properties.2 However, teeth may be damaged as a result of their use; cracking and crazing of dentin has been observed in association with insertion of self-threading retentive pins in extracted teeth.3 Two-dimensional photoelastic models have been used to observe stresses associated with the placement of various kinds of loads on the three types of retentive pin systems and to investigate stress concentrations associated with pin-retained amalgam restorations.4a 5 A photoelastic study that specifically evaluated the self-threading self-shearing retentive pin has shown the presence of high stress zones in the lateral and most apical portions of the pin channel; the apical zone exhibits the most stress.6 It is important to minimize the stresses induced during placement of pins because of the relatively small amount of tooth structure between the pulp and the external tooth surface. It is particularly important that the high stress zone be minimized to reduce the potential risk of fracture and resultant pulpal involvement or tooth failure, The goal of effective pin placement should be adequate retention with elimination of the high stress zone.

Published
1985

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