The porously sintered hydroxyapatite (HA) and poly(L-lactide) (PLLA) oligomer were used to prepare a series porous poly(L-lactide)/hydroxyapatide (PLLA/HA) composites as a biodegradable hard tissue repair material, and its physical-chemical properties were studied in this investigation. The used PLLA oligomer, mentioned above, was prepared via acidic hydrolytic reaction. The HA sinter with optimal strength and porosity could be obtained when HA was mixed with 1 of fold sucrose which was used as filler while binder and 1 of fold salt as filler, pressed under 5-45 kgf/cm2 force, dissolved the sucrose at 220°C, and then sintered under 1345°C for 10h. The all results of viscosity, gel permeation chromatography, thermal properties, IR spectra, X-ray diffraction pattern, and contact angle wholly reveal that the PLLA molecular weight decreasing with the acid amount and degradation time increasing. HA without any purification have a highest toxicity and HA washed with chloroform have a lowest toxicity against gingival fibroblast were found. The results of X-ray diffraction pattern present that the crystallinity increasing with sintered time and the pressure. The MTS data appear the more PLLA the higher mechanical strength.