Abstract
Natural hydroxyapatite HAP, extracted from the animal bones was used as filler for carboxylated acrylonitrile-butadiene rubber XNBR. Physicochemical properties of the HAP were investigated. It demonstrated the tendency to create the structure in paraffin oil. When added to rubber, HAP formed a molecular filler network, which was observed from the dynamical mechanical analysis. Hydroxyapatite appeared to be active filler, since mechanical properties of the vulcanizates were improved upon filling. However, the dispersive component of the hydroxyapatite surface energy was slightly higher in comparison to the value which corresponds to the rubber.
Notes
σ100, σ200, σ300–stress at elongation 100; 200; 300%; TS–tensile strength; ϵr–elongation at break.
ν e – crosslinking density calculated from the equilibrium swelling in (T) toluene or (A) toluene under the ammonia atmosphere; Δν – concentration of ionic cross-links (Δν = ν e(T) − ν e (A));Δν/ν e(T) the relative changes of cross-links under the ammonia treatement