Semiprecious alloys for cast restorations: A preliminary report

Dale, John W.; Moser, J.B.

doi:10.1016/0022-3913(77)90006-3

Cited by 6 publications

(2 citation statements)

References 7 publications

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“…Table 5 lists Landesman, de Gennaro & Martinoff (1981) evaluated Minigold (40% gold), WLW (silver/palladium alloy), and Lite Cast (chromium/cobalt alloy), Harmony Line Hard, a Type Ill alloy (74% gold) being used as a control. Dale & Moser (1977) evaluated Alborium ( 15% gold), Forti cast (42% gold), Paladin Nineteen of the 24 castings were rated acceptable for fit.…”

Section: Castabilitymentioning

confidence: 99%

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1982

Operative Dentistry

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Section: Castabilitymentioning

confidence: 99%

Full Issue PDF

1982

Operative Dentistry

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“…Dowel-cores made from silver-palladium alloys are more easily adjusted and have been recommended for dowel and core castings. (Dale and Moser, 1977a;Dale and Moser, 1977b) However, they exhibited a lower fracture resistance when compared with the gold alloy dowels (Ryther et al, 1992).…”

Section: Cast Dowels and Coresmentioning

confidence: 99%

Dowel design optimization in an endodontically treated single-rooted tooth

Buranadham¹

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Buranadham, Supanee. "Dowel design optimization in an endodontically treated single-rooted tooth: a finite element stress analysis." PhD (Doctor of Philosophy) thesis, University of Iowa, 2000. , for their service on my thesis committee. I would especially like to thank my mentor for the past six years, Dr. Clark M. Stanford for his support, intellectual stimulation, patience and input on this project as well as my prosthodontic education. To Dr. Steven A. Aquilino goes my deep sense of gratitude. His backing and encouragement were invaluable. His clinical expertise, knowledge and dedication to patients and students inspire me to be a better prosthodontist and a better teacher. I would like to extend a special thanks to Dr. M. Ashgar Bhatti who never got tired of answering my questions on finite element analysis. I would also like to thank Dr. Piyawat Phankosol for his interest in helping me develop as a researcher and a prosthodontist since I was an undergraduate student. My great gratitude goes to the Anandamahidol Foundation which was my sponsor for my entire education here. Most of all, I would like to thank my family, especially my parents who never let me quit anything. Their love, support and encouragement have enabled me to attain my goals.iii ABSTRACT Improper dowel design can cause the failure of a restoration in an endodontically treated single-rooted tooth. A three-dimensional finite element stress analysis was used to evaluate stress patterns on an endodontically treated single-rooted tooth restored with a tapered dowel and core and a complete crown under an angular load applied to the tip of the crown. Results showed that, on the loading side, peak dentin and cement tensile stresses were located at the level of the alveolar crest and at the crown margin, respectively. Increasing the diameter and/or stiffness of the dowel decreased these peak stresses; however, it increased the dentin and cement stresses at the dowel apex level, and at the bone level, respectively. The role of the dowel length was to change the location of the stress concentrations in the dentin occurring at the dowel apex. A large and short dowel or a large and stiff (200 GPa) dowel might cause the root fracture to occur across the dowel apex region. The ferrule had no effect on both the dentin and cement stresses below the alveolar crest level. Increasing the ferrule height diminished the stress propagating in the cement layer from the crown margin toward the tooth-core junction. If root fracture occurred, the model predicted a horizontal fracture when the cement layer was perfectly intact. A vertical root fracture was predicted when the cement was broken at the crown margin on the loaded side. The ferrule effectively prevented the vertical fracture. Reducing the bone height resulted in increasing the dentin and cement stresses at and below the bone level. Extending the crown margin toward the bone level increased the cement stress at the crown margin. With an application of the composite theory, it could be demonstrated that while...

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