Reaction Rate Models for the Thermal Decomposition of Ibuprofen Crystals

Sundaram Ramukutty; Esakki Ramachandran

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Reaction Rate Models for the Thermal Decomposition of Ibuprofen Crystals

机译：布洛芬晶体热分解的反应速率模型

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Kinetics of the decomposition of racemic ibuprofen crystals were studied by non-isothermal analysis. Thermogravimetric analysis revealed that ibuprofen is thermally stable up to 152.6°C and the initial loss of mass was due to evaporation only. Activation energy, pre-exponential factor, activation entropy and Gibbs free energy for the decomposition of ibuprofen were determined using the integral method of Coats-Redfern (CR). Geometrical contraction models were found to be the best fits. The Arrheinus equation for the thermal decomposition of ibuprofen is k = (1.1 × 107) e–79125/RT sec–1.

机译：通过非等温分析研究了外消旋布洛芬晶体的分解动力学。热重分析表明，布洛芬在高达152.6°C的温度下具有热稳定性，质量的最初损失仅是由于蒸发。采用Coats-Redfern（CR）积分方法确定了布洛芬分解的活化能，指数前因子，活化熵和吉布斯自由能。发现几何收缩模型是最合适的。布洛芬热分解的阿累尼乌斯方程为k =（1.1×107）e–79125 / RT sec-1。

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《Journal of Crystallization Process and Technology》 |2014年第2期|共8页
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Sundaram Ramukutty; Esakki Ramachandran;
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Reaction Rate Models for the Thermal Decomposition of Ibuprofen Crystals

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