Micro shear bond strength of nano - filled resin composite bonded to nano - filled glass ionomer using three different adhesives /
Mohamed Ali Mohamed Ghali Kabani
Micro shear bond strength of nano - filled resin composite bonded to nano - filled glass ionomer using three different adhesives / قوة الربط القاصة المصغرة للراتينجات المركبة ذات المملئات النانو مترية عند ربطها بالزجاج المتأين ذو المملئات النانو مترية باستخدام ثلاث أنواع مختلفة من المواد اللاصقة Mohamed Ali Mohamed Ghali Kabani ; Supervised Amira M. Farid Alzoghbi , Iman Ibrahim Alsayed - Cairo : Mohamed Ali Mohamed Ghali Kabani , 2011 - 86 P. : charts , facsimiles ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Oral and Dental Medicine - Department of Operative Dentistry
The current study was carried out to evaluate the micro shear bond strength for a nano - filled resin composite bonded to nano - filled glass ionomer restorative materials using three different adhesive systems : etch and rinse adhesive system , self - etch adhesive ststem and glass ionomer based adhesive system
Glass ionomer Resin composite Sandwich technique
Micro shear bond strength of nano - filled resin composite bonded to nano - filled glass ionomer using three different adhesives / قوة الربط القاصة المصغرة للراتينجات المركبة ذات المملئات النانو مترية عند ربطها بالزجاج المتأين ذو المملئات النانو مترية باستخدام ثلاث أنواع مختلفة من المواد اللاصقة Mohamed Ali Mohamed Ghali Kabani ; Supervised Amira M. Farid Alzoghbi , Iman Ibrahim Alsayed - Cairo : Mohamed Ali Mohamed Ghali Kabani , 2011 - 86 P. : charts , facsimiles ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Oral and Dental Medicine - Department of Operative Dentistry
The current study was carried out to evaluate the micro shear bond strength for a nano - filled resin composite bonded to nano - filled glass ionomer restorative materials using three different adhesive systems : etch and rinse adhesive system , self - etch adhesive ststem and glass ionomer based adhesive system
Glass ionomer Resin composite Sandwich technique