Consolidation of bone-like apatite bioceramics by spark plasma sintering of amorphous carbonated calcium phosphate at very low temperature

Various carbonated calcium phosphate powders were synthesized by aqueous precipitation and ceramics consolidation by spark plasma sintering (SPS) at very low temperature was investigated. The objective was to preserve low crystallinity and avoid material decarbonation. SPS at low temperature only leads to little or no sintering when crystallized powders are used. Amorphous powders are required. In this case, consolidation occurs at temperatures below 150°C. It is accompanied by crystallization of the amorphous phase into calcium-deficient carbonated apatite Ca10-x-y(PO4)6-x-y(HPO4)x(CO3)y(OH)2-x-y-2z(CO3)z. The resulting ceramics are microporous and highly cohesive with good mechanical properties (flexural strength=18MPa). The sintering mechanism, called “crystal fusion”, is based on solid state diffusion of chemical species at the grain boundary and crystal growth within the amorphous particles. These bioceramics that mimic the composition of the bone mineral are expected to have a higher bioreactivity than well crystallized carbonated hydroxyapatite ceramics obtained by conventional sintering

Instrumentation et modélisation numérique du procédé SPS – Application à la problématique de changement d’échelle

National audienc

Consolidation of carbonated apatite bioceramics at low temperature by Spark Plasma Sintering

International audienc

Frittage flash à basse température de biocéramiques en apatites carbonatées

International audienc

Influence of carbonate groups on the low-temperature consolidation by spark plasma sintering of phosphocalcic bioceramics

International audienc

A way to identify pressure-assisted sintering mechanisms: application to hot pressing and spark plasma sintering of alumina

International audienc

Study of densification mechanisms during Spark Plasma Sintering of co-precipitated Ho:Lu2O3 nanopowders: Application to transparent ceramics for lasers

International audienc