000 023210000a22003370004500
003 EG-GICUC
005 20250223032957.0
008 061016s2005 ua a f m 000 0 eng d
040 _aEG-GICUC
_beng
_cEG-GICUC
041 0 _aEng
049 _aDeposite
097 _aM.Sc
099 _aCai01.09.09.M.Sc.2005.Ra.T.
100 0 _aRaafat Ragheb Hanna
245 1 0 _aTensile bond strength and microleakage of two different dowel systems using two different luting agents /
_cRaafat Ragheb Hanna ; Supervised Badawi AbouelMahasen Badawi , Hesham Ibrahem Elansary
246 1 5 _aقوة رابطة الشد والتسرب الدقيق لنوعين مختلفين من الاوتاد باستخدام نوعين مختلفين من المواد اللاصقة
260 _aCairo :
_bRaafat Ragheb Hanna ,
_c2005
300 _a121P :
_bill ;
_c30cm
502 _aThesis (M.Sc.) - Cairo University - Faculty Of Oral and Dental Medicine - Department Of Prosthodontics
520 _aThis research was designed to determine the tensile bond strength and microleakage (after fatigue cyclic loading) of fiber reinforced composite dowels and zirconium dioxide dowels using the conventional zinc phosphate cement and the dentin - bonded resin cement Total number of fourty samples were classified randomly into two equal groupsGroup (1) for samples restored with fiber reinforced composite dowel (Easypost) and group (2) for samples restored with zirconium dioxide dowel (cosmopost) Each group was randomly subdivided into two equal subroubsSubgroup (A) using dentin bonded resin cement and subgroup (B) using the conventional zinc phosphate cementFinally each subgroup was devided randomly into two equal divisionsDivision (i) without core - build up that was tested for tensile bond strength and division (ii) with composite core build up that was subjected to fatigue cyclic loading prior to dye - penetration technique for microleakage assessment
530 _aIssued also as CD
653 4 _aluting agents
653 4 _amicroleakage
653 4 _aTensile bond strength
700 0 _aBadawi AbouelMahasen Badawi ,
_eSupervisor
700 0 _aHesham Ibrahem Elansary ,
_eSupervisor
856 _uhttp://172.23.153.220/th.pdf
905 _aAmira
_eCataloger
905 _aMustafa
_eRevisor
942 _2ddc
_cTH
999 _c85450
_d85450