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Effect of magnesium silicate on 3D gel‐printing of hydroxyapatite ceramic composite scaffold
Author(s) -
He Jianzhuang,
Shao Huiping,
Lin Tao
Publication year - 2018
Publication title -
international journal of applied ceramic technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.4
H-Index - 57
eISSN - 1744-7402
pISSN - 1546-542X
DOI - 10.1111/ijac.13133
Subject(s) - materials science , scaffold , slurry , ceramic , compressive strength , composite material , composite number , porosity , simulated body fluid , mass fraction , chemical engineering , biomedical engineering , scanning electron microscope , medicine , engineering
The hydroxyapatite scaffolds doped with MgSiO 3 were prepared by 3D gel‐printing technology in this study. The effect of MgSiO 3 on the scaffold characteristics has been studied, and the composite ceramic scaffold with higher strength was obtained. The viscosity of different MgSiO 3 weight percentages slurry decrease with the shear rate increasing. When the solid loading was 50 vol% and the shear rate was 100 S −1 , the viscosity of the slurry decrease with weight percent of MgSiO 3 increasing. The scaffold has interconnected internal structures and the sintered body has a pore size of about 350‐620 μm. The porosity of the scaffolds with different weight percents of MgSiO 3 is kept at 65%, and the scaffold with 3% MgSiO 3 has the highest compressive strength of 93.15 MPa. As increasing weight percent of MgSiO 3 , the compressive strength of the scaffold gradually decreases and remains at 40 MPa eventually. The ceramic scaffold with 3% MgSiO 3 has better degradability than that of other weight percents of MgSiO 3 . After soaking in Tris‐ HC l solution for 5 weeks, the weight loss of the scaffold reached 9.91%.