Why freeze-casting brings different phase composition of calcium phosphates?

journal article in Scopus

English

The impact of freeze-casting on the porosity, pore distribution, and phase composition was studied and compared with conventional shaping techniques. A bimodal pore size distribution was observed in freeze-cast + freeze-dried samples, in contrast to the unimodal one in freeze-cast + air-dried and conventionally prepared samples. The densification of freeze-cast + freeze-dried samples started at about 50 °C higher than their conventional counterparts (~870 °C vs. 920 °C). Diffusion seems to be a key parameter for the phase transformation of HAP into β-TCP during sintering. The residual HAP content in the sintered samples was influenced by used freezing rate and varied from 4% to 30% (unimodal samples), and from 7% to 16% (bimodal samples). Although further experiments must be carried out, our results showed that the freeze-casting parameters affect the resulting porosity and phase composition regardless of whether the freeze-drying or air-drying was used afterward.

Ice-templating, Robocasting,Indirect 3D printing, Whitlockite, Hydroxyapatite

PEJCHALOVÁ, L.; ROLEČEK, J.; SALAMON, D.

1. 9. 2021

Elsevier

2666-5395

Open Ceramics

7

1

Kingdom of the Netherlands

1595

1602

8

https://www.sciencedirect.com/science/article/pii/S0955221918307246

http://hdl.handle.net/11012/204047