|1.||Cohen, B I: 1 article (01/2000)|
|2.||Musikant, B L: 1 article (01/2000)|
|3.||Pagnillo, M K: 1 article (01/2000)|
|4.||Deutsch, A S: 1 article (01/2000)|
|5.||Newman, I: 1 article (01/2000)|
07/01/1989 - "Fracture surface analyses of Phasealloy and Tytin indicated that creep fatigue rupture was the fracture mechanism responsible for margin breakdown in these amalgam restorations, when subjected to cyclic compressive loading similar to that experienced during mastication."
01/01/2000 - "This pilot study concerned the cyclic fatigue of five different endodontic post systems (AccessPost(R), Flexi-Flange(R), Flexi-Post(R), ParaPost(R), and Vlock(R)) with four different core materials (Tytin(R) Silver amalgam, Ti-Core(R), Ketac-Silver(R) and G-C Miracle Mix(R)). "
11/01/1997 - "Newman-Keuls multiple comparison test illustrated that, with this simulated fatigue test, Ti-Core material and Tytin silver amalgam were superior to both G-C Miracle Mix and Ketac-Silver materials."
11/01/1997 - "This pilot study examined the cyclic fatigue of five endodontic post systems (AccessPost, Flexi-Flange, Flexi-Post, ParaPost, and Vlock) with four core materials (Tytin silver amalgam, Ti-Core, Ketac-Silver and G-C Miracle Mix). "
|1.||Cermet Cements (Cermet)
|3.||Ti-Core composite resin