The binder for the fiber-reinforced ceramic composites should have high ceramic yield and density after sintering and should penetrate into the fibers easily. For this purpose, vinyl polycarbosilane precursor was synthesized for the carbon-fiber/SiC composite as a binder. To investigate the effects of VPS, the traditional β-PCS was also used to compare material properties. And also, to find the optimum properties of binder, VPS was blended with β-PCS. Because the synthesized VPS is soluble in solvent well, it has advantages in slurry infiltration process and can penetrate into fibers easily as well as it has high ceramic density because of its cross-linkable side-chain. As a result, the composites made using VPS have higher flexural strength, flexural modulus, ultimate flexural strain and density compared to those made using β-PCS. VPS, however, has a lower ceramic yield than the β-PCS. Therefore, better material properties were earned when we used VPS mixed with proper quantities of β-PCS.