硼酸盐化学(ⅩⅩⅩⅠ)——MgO·2B2O3-18%MgSO4-H2O过饱和溶液结晶动力学研究

针对我国盐湖硼资源的特点, 模拟合成MgO*2B2O3-18%MgSO4-H2O过饱和溶液, 分别在0 ℃和20 ℃恒温静止跟踪结晶动力学过程. 拟合并给出结晶动力学方程, 同时对结晶机制进行了探讨. 析出固相采用X射线粉末衍射、红外光谱和热分析进行物相鉴定.     

钠硼解石——水体系溶解和相平衡的研究(英)

Ulexite dissolution in water has been studied in the wide temperature range from 10℃ to 93℃ and two higher temperatures at 120 ℃ and 240 ℃. The analytical results showed that ulexite dissolved congruently from 10 ℃ to 35 ℃ and incongruently from 40 to 68 ℃. The solid component of ulexite, NaCaB₅O₆(OH)₆·5H₂O was dehydrated to form NaCaB₅O₆(OH)₆·H₂O from 50 to 68 ℃ and finally amorphous solid at 68 ℃. This amorphous solid converted into priceite at 71 ℃ and then converted completely to priceite at the boiling point(93℃) of the solution. At both 120 and 240 ℃, the dissolution of ulexite was an incongruent process. Above 120 ℃, ulexite became amorphous solid and then transformed into priceite. In addition to the solid to solid transformation, crystallization of priceite from the solution has also been observed. Based on our experimental results, mechanisms of dissolution, transformation, and crystallization of borate in ulexite-water system are discussed.     

Li2O·nB2O3-20%LiCl-H2O体系20℃过饱和溶液结晶动力学研究

用动力学方法对Li₂O·nB₂O₃-20%LiCl-H₂O体系(n=1,2,3)20℃过饱和溶液结晶过程进行研究，结果表明每一种溶液只析出一种固相，Li₂O∶B₂O₃=1∶1、1∶2和1∶3的氯化锂溶液分别结晶出Li₂O·B₂O₃·4H₂O, Li₂O·2B₂O₃·3H₂O和Li₂O·5B₂O₃·10H₂O，拟合并给出结晶动力学方程，同时对这三种固相的结晶反应机理进行了探讨。     

盐卤硼酸盐化学──ⅩⅩⅧ.氯柱硼镁石的激光拉曼光谱

本文研究了氯柱硼镁石硼酸和硼砂的晶体和它们在水溶液中的激光拉曼光谱,并与某些阴酸盐的谱图进行对比.初步提出硼氧配阴离子的聚合形式,为进行氯柱硼镁石结构分析提供实验依据.     

盐卤硼酸盐化学 Ⅻ. MgO·3B2O3·7H2O的热行为和脱水动力学

通过对合成MgO·3B2O₃·7H₂O的热分析研究确定热脱水反应的阶段、温度和产物,给出脱水过程的热化学反应方程式.利用甲醇、水与三氧化二硼之间的酯化反应进行相分离,确定该化合物高温结晶化产物的物相组成为晶态六硼酸镁(2MgO·3B₂O₃)和无定形B₂O₃.对该化合物的TG和DTG数据进行处理结果,给出了相应的非等温热脱水反应动力学方程.     

盐卤硼酸盐化学——XⅦ.MgO-B_2O_3-28%MgCl_2-H_2O体系20℃热力学非平衡态液固相关系研究

用动力学方法对MgO·nB_2O_3在28%MgCl_2-H_2O浓盐溶液中形成的过饱和溶液的结晶过程进行研究,首次得到MgO-B_2O_3-MgCl_2-H_2O体系过饱和区内的液固相关系图,即热力学非平衡态液固相关系图.该相图有六个相区:H_3BO_3,MgO·3B_2O_3·7.5H_2O,MgO·3B_2O_3·7H_2O,2MgO·2B_2O_3·MgCl_2·14H_2O,3Mg(OH)_2·MgCl_2·8H_2O和5Mg(OH)_2·MgCl_2·8H_2O.拟合得到各结晶过程的动力学方程,同时对结晶机制进行了探讨.     

氯柱硼镁石在氯化镁水溶液中相转化平衡液相的红外光谱分析

采用差示FTIR光谱技术,研究了氯柱硼镁石在30℃下浓度为0.5,12和18％MgCl_2水溶液中溶解及相转化平衡饱和水溶液中硼氧配阴离子的FTIR光谱。给出了溶液中硼氧配阴离子的FTIR光谱振动频率的归属,515cm~(-1)为单和二硼氧配阴离子特征峰,630cm~(-1)为三硼氧配阴离子特征峰,550cm~(-1)为四硼氧配阴离子特征峰。对饱和水溶液中硼氧配阴离子的存在形式及其相互作用以及与相转化析出固相的关系进行了讨论。     

化合物Cs5EuCl8·14H2O和Cs2EuCl5·4H2O的制备和荧光性

The two new compounds Cs₅EuCl₈·14H₅O(5∶1 type) and Cs₂EuCl₅·4H₂O(2∶1 type) were found and syn-thesized from CsCl-EuCl₃-11%HCl-H₂O quaternary systems by phase equilibrium method, and were characterized and measured by ultra-violet absorption spectrometry and fluorescence spectrum. The results show that upconversion spectrum exhibit at 590nm and 610nm exited at 790nm, and the upconversion intensity increases with the EuCl₃ ratio increasing in CsCl.     

纳米晶MgSO4·5Mg(OH)2·3H2O合成与表征

纳米材料由于具有表面、体积和量子尺寸效应的特殊性而受到广泛重视[1～3]. 微米级硫氧镁晶须作为塑料添加增强和阻燃剂已有报道[4～7]. 纳米晶MgSO4*5Mg(OH)2*3H2O不仅对塑料起补强作用, 而且其粒度小, 使塑料变得更致密, 强度、韧性与防水性能大大提高. 目前纳米材料的合成方法多种多样[8～10], 本文采用水热法制得纳米硫氧镁晶粒, 产物纯度高、分散性好且粒度易控制.