The aim of this study was to prepare a chitosan/β-tricalcium phosphate(CS/β-TCP) membrane where different particle sizes of tricalcium phosphate were used. The β-TCP can improve mechanical properties of chitosan and release Ca2+ ion to guide proliferation of osteoblastic cells. Different structures of membranes will affect the growth of cell. Therefore, the membrane fabricated by two methods. One is drying method and another is combining pre-drying with lyophilization. Different structures of CS/β-TCP membranes were observed using SEM and XRD methods and mechanical properties, swelling behaviors and biodegradable of composite membranes were measured. Finally, the cell culture of the fibroblastic cells and osteoblastic cells on these composite membranes was evaluated. In result, the structure of membrane was dense in using drying method. Added different particle sizes of tricalcium phosphate in membrane. It can find that the grinded tricalcium phosphate particles were uniform distributing in chitosan membrane. The structures of membranes were porous in combining pre-drying with lyophilization. It can find that were more dense in top surface of membranes with increased pre-heating time. With increased pre-heating time, the thickness, porosity and swelling of membranes were decreased. But the storage modulus were increased. It wasn’t effect structures of membranes with added tricalcium phosphate but it was decreased in porosity and swelling of membranes. And the storage modulus was increased with added tricalcium phosphate. In biodegradable test, tricalcium phosphate would decrease weight loss of membranes. L929 and hFOB1.19 has good viability in different structures of membranes. It can improve viability of cell with added grinded tricalcium phosphate.