Starting from calcium sulfate (gypsum) as fermentation by-product of lactic acid production process, high performance composites have been produced by melt-blending polylactide (PLA, L/D isomer ratio of 96:4) and beta-anhydrite II (AII) filter, that is, calcium sulfate hemihydrate previously dehydrated at 500 degrees C. Characterized by attractive mechanical and thermal properties due to good filler dispersion throughout the polyester matrix, these composites are interesting for potential use as biodegradable rigid packaging. Physical characterization of selected composites filled with 20 and 40 wt % All has been performed and compared to processed unfilled PLA with similar amorphous structure. State of dispersion of the filler particles and interphase characteristic features have been investigated using light microscopy (LM) and scanning electron microscopy (SEM). Addition of AII did not decrease PLA thermal stability as revealed by thermogravimetry analyses (TGA) and allowed reaching a slight increase of PLA crystallizability during melt crystallization and upon heating from the glassy, amorphous state (DSC). It was found by thermomechanical measurements (DMTA) that the All filler increased pronouncedly storage modulus (E') of the composites in comparison with PLA in a broad temperature range. The X-ray investigations showed stable/unchanged crystallographic structure of All during processing with molten PLA and in the composite system. The notable thermal and mechanical properties of PLA-AII composites are accounted for by the good filler dispersion throughout the polyester matrix confirmed by morphological studies, system stability, and favorable interactions between components. (c) 2007 Wiley Periodicals, Inc.