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Thermal Decomposition Mechanism and Non Isothermal Kinetics of Complex of [La_2(P-MBA)_6(PHEN)_2]2H_2O 被引量:3
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作者 张建军 王瑞芬 +1 位作者 白继海 王淑萍 《Journal of Rare Earths》 SCIE EI CAS CSCD 2002年第5期449-452,共4页
The complex of [La 2(P MBA) 6(PHEN) 2]2H 2O (P MBA: p methylbenzoate and PHEN: 1,10 phenanthroline) was prepared and characterized by elemental analysis and IR spectroscopy. The thermal behavior of [La 2(P M... The complex of [La 2(P MBA) 6(PHEN) 2]2H 2O (P MBA: p methylbenzoate and PHEN: 1,10 phenanthroline) was prepared and characterized by elemental analysis and IR spectroscopy. The thermal behavior of [La 2(P MBA) 6(PHEN) 2]2H 2O in dynamic nitrogen atmosphere was investigated by TG DTG techniques. The results show that the thermal decomposition process of the [La 2(P MBA) 6(PHEN) 2]2H 2O occurs in five steps. The empirical kinetic model for the first step thermal decomposition obtained by Malek method is SB(m,n). The activation energy E and the pre exponential factor lnA for this step reaction are 76.4 kJ·mol -1 and 24.92, respectively. 展开更多
关键词 rare earths lanthanum complex non isothermal kinetics P methylbenzoic acid thermal decomposition TG DTG
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Studies on Non-isothermal Kinetics of Thermal Decomposition of Strontium Chloride Hexahydrate 被引量:1
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作者 张建军 穆平 +2 位作者 刘贺喜 郭永宏 陈会兰 《Rare Metals》 SCIE EI CAS CSCD 1998年第3期13-18,共6页
The thermal decomposition of the strontium chloride hexahydrate and its kinetics were studied under non isothermal condition in nitrogen by thermogravimetric and derivative thermogravimetric techniques. The intermedi... The thermal decomposition of the strontium chloride hexahydrate and its kinetics were studied under non isothermal condition in nitrogen by thermogravimetric and derivative thermogravimetric techniques. The intermediate and residue for each decomposition were identified from TG curve. The non isothermal kinetic data were analyzed by the Achar method and the Coats Redfern method. The possible reaction mechanisms were suggested by comparing the kinetic parameters. The kinetic equation for the first stage can be expressed as d α /d t = A exp(- E/RT)(1-α ), the second stage, d α /d t = A exp(- E/RT)3(1-α ) 2/3 , and the third stage, d α /d t = A exp(- E/RT)3/2(1-α ) 2/3 [1-(1- α ) 1/3 ] -1 . Mathematic expressions of the kinetic compensation effects of each stage of the thermal decomposition reaction were also obtained. 展开更多
关键词 Thermal decomposition Strontium chloride hexahydrate non isothermal kinetic
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Study on the thermal decomposition kinetics of nano-sized calcium carbonate 被引量:2
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作者 李代禧 史鸿运 +1 位作者 邓洁 徐元植 《Journal of Zhejiang University Science》 EI CSCD 2003年第3期363-368,共6页
This study of the thermal decomposition kinetics of various average diameter nano-particles of cal-cium carbonate by means of TG-DTA(thermogravimetry and differential thermal analysis) showed that the thermal decompos... This study of the thermal decomposition kinetics of various average diameter nano-particles of cal-cium carbonate by means of TG-DTA(thermogravimetry and differential thermal analysis) showed that the thermal decomposition kinetic mechanisms of the same crystal type of calcium carbonate samples do not vary with decreasing of their average diameters ; their pseudo-active energy Ea; and that the top-temperature of decom-position Tp decreases gently in the scope of micron-sized diameter, but decreases sharply when the average di-ameter decreases from micron region to nanometer region. The extraordinary properties of nano-particles were explored by comparing the varying regularity of the mechanisms and kinetic parameters of the solid-phase reac-tions as well as their structural characterization with the variation of average diameters of particles. These show that the aggregation, surface effect as well as internal aberrance and stress of the nano-particles are the main reason causing both Ea and Tp to decline sharply with the decrease of the average diameter of nano-particles. 展开更多
关键词 Nano particle AGGREGATION non isothermal kinetics Surface effect Phase interface reaction.
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Kinetics of Therm al Decom position of[Eu_2(p-M O B A)_6(phen)_2](H_2 O)_2 in Static Air Atmosphere 被引量:1
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作者 张建军 王瑞芬 +3 位作者 赵建路 默丽萍 翟学良 葛立国 《Rare Metals》 SCIE EI CAS CSCD 1999年第3期182-188,共7页
The thermal decomposition of [Eu 2( p MOBA) 6(phen) 2](H 2O) 2 ( p MOBA=C 8H 7O 3, methoxybenzoate; phen=C 12 H 8N 2, 1,10 phenanthroline) and its kinetics were studied under the non isothermal... The thermal decomposition of [Eu 2( p MOBA) 6(phen) 2](H 2O) 2 ( p MOBA=C 8H 7O 3, methoxybenzoate; phen=C 12 H 8N 2, 1,10 phenanthroline) and its kinetics were studied under the non isothermal condition in air by TG and DTG methods. The intermediate and residue for each decomposition were identified from TG curve. The non isothermal kinetic data were analyzed by the Achar method and Coats Redfern method. The possible reaction mechanisms were suggested by comparing the kinetic parameters. The kinetic equation for the first stage can be expressed as d α /d t = A exp(- E/RT )[-ln(1- α )] -1 , the second stage and the third stage d α /d t = A exp(- E/RT )3/2(1- α ) 4/3 [1/(1- α ) 1/3 -1] -1 . The mathematical expressions of the kinetic compensation effects of each stage of the thermal decomposition reaction were also obtained. 展开更多
关键词 Thermal decomposition non isothermal kinetic Europium complex p Methoxbenzoic acid
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Synthesis, Characterization, Thermal Decomposition Mechanism and Non-Isothermal Kinetics of the Pyruvic Acid-Salicylhydrazone and Its Complex of Praseodymium(III) 被引量:2
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作者 何水样 刘煜 +4 位作者 赵建社 赵宏安 杨锐 胡荣祖 史启祯 《Chinese Journal of Chemistry》 SCIE CAS CSCD 2003年第2期139-145,共7页
The pyruvic acid salicylhydrazone and its new complex of Pr(III) were synthesized. The formulae C 10 H 10 N 2O 4 (mark as H 3L) and [Pr 2(L) 2(H 2O) 2]·3H 2O (L=the triad form of the pyruvic acid... The pyruvic acid salicylhydrazone and its new complex of Pr(III) were synthesized. The formulae C 10 H 10 N 2O 4 (mark as H 3L) and [Pr 2(L) 2(H 2O) 2]·3H 2O (L=the triad form of the pyruvic acid salicylhydrazone [C 10 H 7N 2O 4] 3- ) were determined by elemental and EDTA volumetric analysis. Molar conductance, IR, UV, X ray and 1H NMR were carried out for the characterizations of the complex and the ligand. The thermal decompositions of the ligand and the complex with the kinetic study were carried out by non isothermal thermogravimetry. The Kissinger's method and Ozawa's method are used to calculate the activation energy value of the main step decomposition. The stages of the decompositions were identified by TG DTG DSC curve. The non isothermal kinetic data were analyzed by means of integral and differential methods. The possible reaction mechanism and the kinetic equation were investigated by comparing the kinetic parameters. 展开更多
关键词 pyruvic acid salicylhydrazone praseodymium(III) complex thermal decomposition non isothermal kinetics mechanism function
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