摘要
A new Precision Extrusion nozzle based ball screw transmission was developed. 3D hierarchical porous PLLA/nano-Hydroxyapatite(PLLA/nHA) scaffolds were fabricated by low-temperature deposition manufacturing. Scaffolds with macropores of 200-500 rtm and micropores about 10 pm were fabricated through a thorough study and control of the processing parameters, in which the processing path and speed of material extrusion determine the macropores and there is a suitable temperature zone for fabricating qualified macropores. Micropore morphology can be controlled by adjusting supercooling of solvent crystallization or adding water into the solvent system. The compressive modulus of the scaffolds in air and phosphate buffer solution was measured, which increased with HA addition. In-vitro cell culture results showed a ~ood biocomoatibilitv of PLLA/HA scaffolds with the ore-osteoblastic MC3T3-E1 cells.
A new Precision Extrusion nozzle based ball screw transmission was developed. 3D hierarchical porous PLLA/nano-Hydroxyapatite(PLLA/nHA) scaffolds were fabricated by low-temperature deposition manufacturing. Scaffolds with macropores of 200-500 rtm and micropores about 10 pm were fabricated through a thorough study and control of the processing parameters, in which the processing path and speed of material extrusion determine the macropores and there is a suitable temperature zone for fabricating qualified macropores. Micropore morphology can be controlled by adjusting supercooling of solvent crystallization or adding water into the solvent system. The compressive modulus of the scaffolds in air and phosphate buffer solution was measured, which increased with HA addition. In-vitro cell culture results showed a ~ood biocomoatibilitv of PLLA/HA scaffolds with the ore-osteoblastic MC3T3-E1 cells.
基金
Funded by the Harbin Science and Technology Innovation Researchers Project(No.2007RFXXSO21)
