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Residual stress in all ceramic zirco...

Zhang, Yanli.

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Residual stress in all ceramic zirconia-porcelain dental system by simulation and nanoindentation.

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Residual stress in all ceramic zirconia-porcelain dental system by simulation and nanoindentation./
作者:	Zhang, Yanli.
面頁冊數:	129 p.
附註:	Source: Dissertation Abstracts International, Volume: 74-01(E), Section: B.
Contained By:	Dissertation Abstracts International74-01B(E).
標題:	Engineering, General. -
電子資源:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3525681
ISBN:	9781267591449

Residual stress in all ceramic zirconia-porcelain dental system by simulation and nanoindentation.
Zhang, Yanli.

Residual stress in all ceramic zirconia-porcelain dental system by simulation and nanoindentation. - 129 p.

Source: Dissertation Abstracts International, Volume: 74-01(E), Section: B.

Thesis (Ph.D.)--Oklahoma State University, 2012.

All ceramic zirconia-porcelain dental crowns become more popular due to biocompatibility and esthetics. However, zirconia-porcelain dental crowns exhibits a unique failure behavior and fail at a faster rate than metal-ceramic crowns even under the same manufacturing procedures and thermal treatment guidelines. This unique failure behavior has not been fully understood. Residual stress was believed to have played an important role due to the poor thermal diffusivity of zirconia. The magnitude of residual stress in crown, especially in porcelain veneer layer, has not been thoroughly studied experimentally before. Interaction of cooling rate, mismatch of coefficient of thermal expansion between core and veneer material, and geometry effect on residual stress has not been thoroughly studied, especially for the three-dimensional geometry. Nanoindetation was used to measure the residual stress in a clinical relevant zirconia-porcelain dental crown. Finite element method was used to evaluate effects of different factors on residual stress and to improve crown designs to reduce residual stress.

ISBN: 9781267591449Subjects--Topical Terms:

1020744
Engineering, General.

Residual stress in all ceramic zirconia-porcelain dental system by simulation and nanoindentation.
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500 $a Adviser: Jay C. Hanan.
502 $a Thesis (Ph.D.)--Oklahoma State University, 2012.
520 $a All ceramic zirconia-porcelain dental crowns become more popular due to biocompatibility and esthetics. However, zirconia-porcelain dental crowns exhibits a unique failure behavior and fail at a faster rate than metal-ceramic crowns even under the same manufacturing procedures and thermal treatment guidelines. This unique failure behavior has not been fully understood. Residual stress was believed to have played an important role due to the poor thermal diffusivity of zirconia. The magnitude of residual stress in crown, especially in porcelain veneer layer, has not been thoroughly studied experimentally before. Interaction of cooling rate, mismatch of coefficient of thermal expansion between core and veneer material, and geometry effect on residual stress has not been thoroughly studied, especially for the three-dimensional geometry. Nanoindetation was used to measure the residual stress in a clinical relevant zirconia-porcelain dental crown. Finite element method was used to evaluate effects of different factors on residual stress and to improve crown designs to reduce residual stress.
520 $a Nanoindention measurement showed that there are large amount of residual stress existed both in zirconia and porcelain layer in dental crowns. The average residual stress reading is -637 MPa and 323 MPa for zirconia and porcelain respectively. It is a challenge to find a stress free sample. Finite element method study showed that mismatch of CTE, cooling rate, crown geometry all have effect on residual stress. When the mismatch of coefficient of thermal expansion is 5 ppm difference during the porcelain glass transition region, the cooling rate effect on residual stress is small. When the mismatch of coefficient of thermal expansion is 20 ppm difference during the porcelain glass transition region, the cooling rate effect on residual stress are very big, with the maximum difference of maximum principle stress at 74 MPa. Different designs were compared and showed that more zirconia support and less porcelain thickness gradient would decrease the residual stress in design crowns. Slow cooling is recommended; also crown design should consider porcelain's CTE value during glass transition.
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