Agus Haryono scite author profile

The effects of lignin on mechanical, biodegradability, morphology, and thermal properties of PP/PLA/lignin were investigated. PP/PLA/lignin film were manufactured by adding PP, PLA, lignin and compatibilizer into rheomix at 200°C, at 70 rev min −1 for 30 minthen pressed using Hydraulic Hot Press at 200°C-210°C, at 6 bar for 20 min. The functional groups of PP/ PLA/lignin were analyzed using FTIR. The surface morphology, mechanical properties and thermal stability was measured by SEM, tensile strenght and TGA respectively. TThe FTIR intensity of vibration peak of -CH 3 cm -1 from PP/lignin and PP/PLA/lignin at 997-993, 1458-1451 and 2966-2904 cm -1 was lower than neat PP. The addition of lignin into PP/lignin, PLA/ lignin and PP/PLA/lignin can reduce tensile strength and elongation at break. The thermal stability PP/PLA/lignin was lower than the PP/lignin but higher compared to PP/PLA biocomposites. The biodegradability of PP/PLA/lignin biocomposites was two times higher than that of PP/lignin.

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Agus Haryono

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