PMMA/PLA/Kil biyobozunur nanokompozit sentezi ve karakterizasyonu.

In this study, PMMA/Bentonite and PMMA/HNT nanocomposites were synthesized by in-situ and solution blending methods by using polymethyl methacrylate (PMMA) obtained from methyl methacrylate by emulsion polymerization method and bentonite and halloysite (HNT) at different ratios (5 wt.% and 10 wt.%). Biodegradable PMMA/PLA, PMMA/PLA/Bentonite, and PMMA/PLA/HNT were obtained by mixing the synthesized PMMA and PMMA/clay nanocomposites with a polylactic acid (PLA) with PMMA:PLA weight ratio of 50:50. Characterization studies of synthesized nanocomposites; Differential Scanning Calorimetry (DSC), Thermogravimetric Analysis (TGA) and Scanning Electron Microscope (SEM) analyzes, and Shore-D hardness test was performed. In addition, to observe the effects of clay additives and production methods on biodegradability, the synthesized samples were buried in two different soils, humus soil and cactus soil, and monitored for six months. When the obtained nanocomposites were compared with the pure polymer, it was determined that the hardness values of the nanocomposites were much higher than the pure polymer, and their thermal stability increased with HNT and bentonite additives. When nanocomposites synthesized by the in-situ production method and solution blending production method are compared, it was determined that nanocomposites produced by the solution blending method degrade faster in the soil and show better distribution in the structure. In addition, it was observed that cactus soil created a better degradation environment than humus soil, and bentonite accelerated degradation more than HNT. [ABSTRACT FROM AUTHOR]