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Weathering and accelerated aging of high density polyethylene mixtures with regranulate
Bruzl, Dominik ; Tocháček, Jiří (referee) ; Bálková, Radka (advisor)
This master thesis deals with the effect of multiple extrusion (1, 2, 3) and the addition of 30, 60 and 90 % of this recycled material on the weathering and accelerated ageing of high density polyethylene (HDPE) copolymer. The weathering lasted 9 months and the accelerated ageing 1000 h at 65 °C. The degree of material degradation was assessed from changes in mechanical and physical properties and compositional changes using dynamic mechanical analysis and tensile testing, differential compensation calorimetry, thermogravimetric analysis and infrared spectrometry in the full attenuated reflection mode. The measurements showed that repeated extrusion as well as the addition of recycle material to the original one (R0) slightly slows down the photo-oxidative degradation during first month, but after that it does not have a negative or significant positive effect on the progress and rate of overall material degradation. A certain exception was the recycled material after the 3rd extrusion (R3), where the original properties comparable to R0 did not change much during ageing. The mechanical properties of the blends were better or comparable to R0 during ageing, but after months 6 and 9 the breaking strength of most of them decreased substantially as a result of the shortening of the chains. Accelerated ageing caused significant embrittlement in all samples, resulting in a reduction in yield strength by about half and almost immediate failure.
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Weathering and accelerated aging of high density polyethylene mixtures with regranulate
Bruzl, Dominik ; Tocháček, Jiří (referee) ; Bálková, Radka (advisor)
This master thesis deals with the effect of multiple extrusion (1, 2, 3) and the addition of 30, 60 and 90 % of this recycled material on the weathering and accelerated ageing of high density polyethylene (HDPE) copolymer. The weathering lasted 9 months and the accelerated ageing 1000 h at 65 °C. The degree of material degradation was assessed from changes in mechanical and physical properties and compositional changes using dynamic mechanical analysis and tensile testing, differential compensation calorimetry, thermogravimetric analysis and infrared spectrometry in the full attenuated reflection mode. The measurements showed that repeated extrusion as well as the addition of recycle material to the original one (R0) slightly slows down the photo-oxidative degradation during first month, but after that it does not have a negative or significant positive effect on the progress and rate of overall material degradation. A certain exception was the recycled material after the 3rd extrusion (R3), where the original properties comparable to R0 did not change much during ageing. The mechanical properties of the blends were better or comparable to R0 during ageing, but after months 6 and 9 the breaking strength of most of them decreased substantially as a result of the shortening of the chains. Accelerated ageing caused significant embrittlement in all samples, resulting in a reduction in yield strength by about half and almost immediate failure.
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