摘要:This research presents polyesterification kinetics for shellac hydrolizate-phtalic anhydride. The polyesterification kinetics is proposed by assuming that the reaction in ideal system, whereas the reactivity of the OH groups are considered different. Polyesterification was started from purification of shelllac by hydrolisis process. Hydrolisis was done by dissolving seedlac into NaOH solution and acidification with HCl. Polyesterification was conducted by reacting shellac hydrolizate with phtalic anhydride. Both of these materials were reacted in a three necked flask under vacuum condition. The reaction was conducted in temperature range of 130-170 0 C and samples were taken every 30 minutes for a total of 5 hours, to determine the COOH concentration by titration. The investigation of reaction kinetic showed that reaction model could describe the kinetic of polyesterification shellac hydrolizate-phthalic anhydride, especially for temperature below 150 0 C. The reaction rate constants were obtained as follows: k 1 = 19.7 e (-3802.82/T) g/mgek.menit k 2 = 29.4 e (-4062.30/T) g/mgek.menit
其他摘要:This research presents polyesterification kinetics for shellac hydrolizate-phtalic anhydride. The polyesterification kinetics is proposed by assuming that the reaction in ideal system, whereas the reactivity of the OH groups are considered different. Polyesterification was started from purification of shelllac by hydrolisis process. Hydrolisis was done by dissolving seedlac into NaOH solution and acidification with HCl. Polyesterification was conducted by reacting shellac hydrolizate with phtalic anhydride. Both of these materials were reacted in a three necked flask under vacuum condition. The reaction was conducted in temperature range of 130-170 0 C and samples were taken every 30 minutes for a total of 5 hours, to determine the COOH concentration by titration. The investigation of reaction kinetic showed that reaction model could describe the kinetic of polyesterification shellac hydrolizate-phthalic anhydride, especially for temperature below 150 0 C. The reaction rate constants were obtained as follows: k 1 = 19.7 e (-3802.82/T) g/mgek.menit k 2 = 29.4 e (-4062.30/T) g/mgek.menit
