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Merck

Porous and strong bioactive glass (13-93) scaffolds prepared by unidirectional freezing of camphene-based suspensions.

Acta biomaterialia (2011-08-23)
Xin Liu, Mohamed N Rahaman, Qiang Fu, Antoni P Tomsia
ABSTRAKT

Scaffolds of 13-93 bioactive glass (6Na(2)O, 12K(2)O, 5MgO, 20CaO, 4P(2)O(5), 53SiO(2); wt.%) with an oriented pore architecture were formed by unidirectional freezing of camphene-based suspensions, followed by thermal annealing of the frozen constructs to grow the camphene crystals. After sublimation of the camphene, the constructs were sintered (1 h at 700°C) to produce a dense glass phase with oriented macropores. The objective of this work was to study how constant freezing rates (1-7°C min(-1)) during the freezing step influenced the pore orientation and mechanical response of the scaffolds. When compared to scaffolds prepared by freezing the suspensions on a substrate kept at a constant temperature of 3°C (time-dependent freezing rate), higher freezing rates resulted in better pore orientation, a more homogeneous microstructure and a marked improvement in the mechanical response of the scaffolds in compression. Scaffolds fabricated using a constant freezing rate of 7°C min(-1) (porosity=50±4%; average pore diameter=100 μm), had a compressive strength of 47±5 MPa and an elastic modulus of 11±3 GPa (in the orientation direction). In comparison, scaffolds prepared by freezing on the constant-temperature substrate had strength and modulus values of 35±11 MPa and 8±3 GPa, respectively. These oriented bioactive glass scaffolds prepared by the constant freezing rate route could potentially be used for the repair of defects in load-bearing bones, such as segmental defects in the long bones.

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Sigma-Aldrich
Camphene, 95%
Supelco
Camphene, analytical standard