Relationship between crystal structure and thermo-mechanical properties of kaolinite clay: beyond standard density functional theory

Weck Philippe F.; Kim Eunja; Jove-Colon Carlos F.

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Relationship between crystal structure and thermo-mechanical properties of kaolinite clay: beyond standard density functional theory

机译：高岭石黏土的晶体结构与热机械性能之间的关系：超出标准密度泛函理论

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The structural, mechanical and thermodynamic properties of 1 : 1 layered dioctahedral kaolinite clay, with ideal Al2Si2O5(OH)(4) stoichiometry, were investigated using density functional theory corrected for dispersion interactions (DFT-D2). The bulk moduli of 56.2 and 56.0 GPa predicted at 298 K using the Vinet and Birch-Murnaghan equations of state, respectively, are in good agreement with the recent experimental value of 59.7 GPa reported for well-crystallized samples. The isobaric heat capacity computed for uniaxial deformation of kaolinite along the stacking direction reproduces calorimetric data within 0.7-3.0% from room temperature up to its thermal stability limit.

机译：使用针对分散相互作用（DFT-D2）校正的密度泛函理论，研究了具有理想Al2Si2O5（OH）（4）化学计量比的1：1层状二八面体高岭石粘土的结构，力学和热力学性质。分别使用Vinet和Birch-Murnaghan状态方程在298 K下预测的体积模量为56.2 GPa和56.0 GPa，与最近报告的结晶良好的样品59.7 GPa的实验值非常吻合。计算出的高岭石沿堆积方向的单轴变形的等压热容从室温到其热稳定性极限的量热数据均在0.7-3.0％之内。

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《Dalton transactions: An international journal of inorganic chemistry》 |2015年第28期|共11页
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Weck Philippe F.; Kim Eunja; Jove-Colon Carlos F.;
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1. Relationship between crystal structure and thermo-mechanical properties of kaolinite clay: beyond standard density functional theory [J] . Weck Philippe F., Kim Eunja, Jove-Colon Carlos F. Dalton transactions: An international journal of inorganic chemistry . 2015,第28期

机译：高岭石黏土的晶体结构与热机械性能之间的关系：超出标准密度泛函理论
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Relationship between crystal structure and thermo-mechanical properties of kaolinite clay: beyond standard density functional theory

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