Effect of Metal Coping Thickness and Porcelain Firing Cycles on Marginal Accuracy of Milled Titanium and Cast Nickel-Chromium Alloys
Hend Mohamed ELgammal;
Abstract
The current study evaluated the effect of metal coping thickness and porcelain firing cycles on the marginal accuracy of milled Titanium and cast Nickel-chromium ceramic restorations.
A specially designed stainless steel master die was constructed simulat
A specially designed stainless steel master die was constructed simulat
Other data
| Title | Effect of Metal Coping Thickness and Porcelain Firing Cycles on Marginal Accuracy of Milled Titanium and Cast Nickel-Chromium Alloys | Other Titles | تاثير سمك طبقة المعدن وحرق طبقة البورسلين على دقة حواف تيجان التيتانيوم المخروط والنيكل كروم المصنع بطريقة الصب | Authors | Hend Mohamed ELgammal | Keywords | Effect of Metal Coping Thickness and Porcelain Firing Cycles on Marginal Accuracy of Milled Titanium and Cast Nickel-Chromium Alloys | Issue Date | 2012 | Description | The current study evaluated the effect of metal coping thickness and porcelain firing cycles on the marginal accuracy of milled Titanium and cast Nickel-chromium ceramic restorations. A specially designed stainless steel master die was constructed simulat |
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