%0 Journal Article
%T 微细菱镁矿热分解过程及动力学
%A 白丽梅
%A 邓玉芬
%A 韩跃新
%A 赵文青
%J 东北大学学报（自然科学版）
%D 2018
%R 10.12068/j.issn.1005-3026.2018.03.019
%X 摘要 采用TG-DSC热分析技术，在不同升温速率下对高纯微细菱镁矿进行热分解动力学研究.结果表明:随着升温速率的增大，菱镁矿分解速率不断增大且最大分解速率也向高温区偏移.首先使用Hu-Gao-Zhang方程对不同升温速率的TG数据进行计算，确定了热分解机理函数的唯一性和活化能.进而采用双等双步法和产品形貌分析，确定其最概然机理函数为f(α)=2(1-α)1/2，热分解沿解理面向内进行，属于典型的相边界反应.最后利用Flynn-Wall-Ozawa方程求得指前因子，建立了微细菱镁矿的热分解动力学方程.用两组不同升温速率的TG数据对所建立方程进行验证，方程合理.</br>Abstract：Thermal decomposition kinetics of highly pure micro-fine magnesite particles was studied by TG-DSC techniques at varying heating rates. The results indicate that with increase of heating rate， decomposition rate of magnesite increases gradually and maximum decomposition rate shifts to the high-temperature zone. Firstly， TG experimental data obtained at different heating rates were calculated with Hu-Gao-Zhang equation， which determined uniqueness and activation energy value of thermal decomposition mechanism function of magnesite. And then double equal-double steps method combined with morphological analysis on calcined products were adopt to determine differential form for most probable mechanism function of thermal decomposition， it is f(α)=2(1-α)1/2， and the outside-in (i.e. from cleavage surfaces to the interior of crystal) thermal decomposition of particles is a typical phase boundary reaction. Finally the pre-exponential factor was calculated by Flynn-Wall-Ozawa equation， and thermal decomposition kinetics equation of micro-fine magnesite is established. Two sets of TG data with different heating rates were used to verify the established equation and prove it is reasonable equation.
%K 菱镁矿
%K 热分解
%K 动力学
%K 分解机理
%K 热重分析&lt
%K /br&gt
%K Key words： magnesite thermal decomposition kinetics decomposition mechanism thermogravimetric analysis
%U http://xuebao.neu.edu.cn/natural/CN/abstract/abstract10510.shtml