Composites of syndiotactic polypropylene (sPP) with 5 to 17 vol.% of halloysite and 2.5 to 7.5 vol.% of stearic acid modified nano-calcium carbonate, having an average grain size of 80 nm, were prepared and examined. The effect of fillers on thermal properties of sPP was different; halloysite increased markedly peak crystallization temperature. The composites with the highest filler contents, 7.5 vol.% of calcium carbonate and 17 vol.% of halloysite, exhibited a solid-like behavior at 170 degrees C, with the storage modulus exceeding the loss modulus in the entire frequency range, that is 512 to 0.1 rad s(-1). The composites with halloysite exhibited de-creased Izod impact strength compared to neat sPP. On the contrary, 2.7 fold improvement of the impact strength was found for the composites with nano-calcium carbonate. Moreover, nano-calcium carbonate did not worsen the drawability of the materials during uniaxial drawing. It was found that debonding at calcium carbonate/sPP interface occurred both during the impact test and tensile drawing facilitating the plastic deformation of the polymer.