In recent years, because of the development of dental materials, the dentistry is great advanced. In the mean while, people pay much attention to esthetics, so it also accelerates the creation and development of glass fiber posts and resin cements. In previous experiments, our team have made efforts in creating new glass fiber post formula; recently, a product, A, was used widely in the adhesive industry. We made an agreement with DBC to apply A into our glass fiber post formula. We found that if we added 10wt% of A into the glass fiber post formula, the bonding strength with commercial resin cement was greatly enhanced. Compared our glass fiber post with commercial glass fiber post, the bonding strength of our glass fiber post with commercial resin cement was almost twice as commercial glass fiber post (10.37±0.73 MPa；18.55±2.2 MPa). Because of this discovery, we made more efforts in how to use the main composition of A as addition. After that we also find B combine C possessed the most significant outcome (25.04±1.26 MPa). In the review articles, we know the weakest interface of glass fiber post cementation is in the dentin- resin cement interface. So we also concentrated on the development of resin cement. We found that if a small amount of B and C (10wt%) were added into the resin matrix composed of Bis-GMA and TEGDMA, the bonding strength of dentin- resin cement increased. 24.63±1.59 MPa for push-out test and 247.13±36.73 J/m2 for fracture toughness test. With the assist of SEM/EDS, ATR-FTIR, XPS, we knew the type of fracture interface and the property of resin cement. It is helpful to make the resin cement more suitable in the clinical usage.