The thermodynamical properties of MgCl_2 in KCI-MgCl_2-LiCl molten electrolytes containing MgCl_2 below 0.5 (mole fraction, the same below) have been determined from the interchange energies of two binary systems KCI...The thermodynamical properties of MgCl_2 in KCI-MgCl_2-LiCl molten electrolytes containing MgCl_2 below 0.5 (mole fraction, the same below) have been determined from the interchange energies of two binary systems KCI-MgCl_2 and LiCI-MgCl_2, by means of a model on the assumptions that the electrolytes in the solution are treated as independent particles instead of their ion forms and the interchange energy between the component pair KCI-LiCl is ignored when compared with those of component pairs KCl-MgCl_2 and MgCl_2-LiCl. The interchange energies, wKCl-MgCl_2 and wMgcCl_2-Licl, are obtained as-70000 and -13800 J.mol-1, from the corresponding binary solutions, respectively.展开更多
Manganese-doped Ba(0.925)Ca(0.075)TiO3 lead-free piezoelectric ceramics(abbreviated as BCT)with high mechanical quality factor were synthesized by conventional solid-state reaction method.The effects of excess B...Manganese-doped Ba(0.925)Ca(0.075)TiO3 lead-free piezoelectric ceramics(abbreviated as BCT)with high mechanical quality factor were synthesized by conventional solid-state reaction method.The effects of excess Ba on the crystal structure,microstructure,and electrical properties of the ceramics were systematically investigated.X-ray diffraction and Raman spectra revealed that Ca^2+ions were pushed from Ba sites to Ti sites of BCT when 1.5 mol%extra Ba^2+ions were added after sintering.The grain size of the ceramics was decreased by adding extra Ba^2+ions.The mechanical quality factor and resistivity of the ceramics decreased dramatically when the excess Ba was more than 1.5 mol%.High piezoelectric coefficients(d(33)=150-190 pC/N)and high mechanical quality factors(Qm=1 000-1 200)were obtained in the ceramics when the excess of Ba was between 0.5 mol%and 1 mol%.These results indicated that the properties of BCT ceramics could be tailored by adjusting the content of Ba.展开更多
基金National Natural Science Foundation of China!No.59774028
文摘The thermodynamical properties of MgCl_2 in KCI-MgCl_2-LiCl molten electrolytes containing MgCl_2 below 0.5 (mole fraction, the same below) have been determined from the interchange energies of two binary systems KCI-MgCl_2 and LiCI-MgCl_2, by means of a model on the assumptions that the electrolytes in the solution are treated as independent particles instead of their ion forms and the interchange energy between the component pair KCI-LiCl is ignored when compared with those of component pairs KCl-MgCl_2 and MgCl_2-LiCl. The interchange energies, wKCl-MgCl_2 and wMgcCl_2-Licl, are obtained as-70000 and -13800 J.mol-1, from the corresponding binary solutions, respectively.
基金Funded by the National Natural Science Foundation of China(No.51672220)the 111 Program(No.B08040)of MOE+3 种基金the National Defense Science Foundation(No.32102060303)the Xi’an Science and Technology Foundation(Nos.2017XAKJCGZH-10 and 2017086CG-RC049-XBGY005)the Shaanxi Provincial Science Foundation(No.2017KW-018)the NPU Gaofeng Project(No.17GH020824)of China
文摘Manganese-doped Ba(0.925)Ca(0.075)TiO3 lead-free piezoelectric ceramics(abbreviated as BCT)with high mechanical quality factor were synthesized by conventional solid-state reaction method.The effects of excess Ba on the crystal structure,microstructure,and electrical properties of the ceramics were systematically investigated.X-ray diffraction and Raman spectra revealed that Ca^2+ions were pushed from Ba sites to Ti sites of BCT when 1.5 mol%extra Ba^2+ions were added after sintering.The grain size of the ceramics was decreased by adding extra Ba^2+ions.The mechanical quality factor and resistivity of the ceramics decreased dramatically when the excess Ba was more than 1.5 mol%.High piezoelectric coefficients(d(33)=150-190 pC/N)and high mechanical quality factors(Qm=1 000-1 200)were obtained in the ceramics when the excess of Ba was between 0.5 mol%and 1 mol%.These results indicated that the properties of BCT ceramics could be tailored by adjusting the content of Ba.