Details

The purpose of the thesis was to compare the mechanical properties with respect to different percentages of recycled polypropylene before and after heat treatment. Based on tensile testing and melting index measurements, we were comparing the difference between 100% recycled (black recyclate), 47% recycled (47 % reciklat) and non-recycled polypropylene virgin (PP200 CA40). During the tensile test, we obtained data on yield strength, tensile strength, elongation and modulus of elasticity. For comparison, 5 tensile specimens from the 1st and 5 tensile specimens from the 2nd batch were prepared. To compare the properties before and after aging, 5 tensile specimens of each material from each batch were placed in a heat chamber for 18 days and after that the tensile test was performed again. The results showed that the melt flow index is the lowest with 100 % recyclate and highest with virgin polypropylene. Elongation is the highest with virgin polypropylene, followed by 47 % recyclate and then 100 % recyclate. Modulus of elasticity is the largest for 47 % recyclate, followed by 100 % recyclate, with the smallest modulus of elasticity for virgin polypropylene. In the case of virgin polypropylene, the material does not break. 47 % recyclate also has the highest yield stress and 100 % recyclate has the lowest. The tensile strength is quite similar for 47 % recyclate and virgin polyproylene, between 26 and 29 MPa and lower for black recyclate, between 22 and 23 MPa. The tensile stress and tensile strength of all tests were higher after aging, but the elongation and modulus of elasticity were higher before aging.