The deformation behavior of isotactic polypropylene (PP) as a function of strain rate was investigated at 50degreesC in uniaxial tension. Injection molded dogbone specimens were tested at high strain rates, epsilon over dot = 10(-1) - 10(2) s(-1), and the local deformation in the neck was studied using fast tensile videometry. A strong elastic recoil was observed after fracture in this strain rate range with local elastic strains as high as epsilon(e) = 2.0 - 3.2. The recoil is very fast and takes place within 1 ms. The elastic fraction of the strain at break was found to increase with the local strain rate. The elasticity further depends on strain and temperature. The elastic deformation behavior is part of the known transition from ductile cold drawing behavior to brittle fracture that occurs with strain rate or temperature. The elasticity in PP is thought to be due to a decrease in crystallinity, resulting in a discontinuous crystalline structure comparable to that of thermoplastic elastomers.