Dy(ClO_4)_3·3H_2O-18C6-CH_3CN体系的相平衡及其固体配合物的合成

近年来稀土冠醚配合物的研究受到广泛重视,但稀土高氯酸盐冠醚配合物的研究报道较少。高氯酸镝与冠醚18C6的配合物尚未见报道。我们利用半微量相平衡方法研究了Dy(ClO_4)_3·3H_2O-18C6-CH_3CN三元体系在15℃时的溶解度。同时制得了固态配合物,用化学分析及物理化学方法研究了配合物的组成和性质。     

Yb(Cl4)3·3H2O-18C6-C2H5OH体系(25℃)的相化学研究及固态配合物的合成与性质

The solubilities of Yb(ClO₄)₃·3H₂O-18C6-C₂H₅OH ternary system at 25 were invstigated by a semimicro method for study of phase equilibrium.and the refractive indexes of saturated solutions were determined.The behavior of water in this system during the equilibrium was examined.The results indicate that there are two kinds of complexes formed in the system, their chemical compositions are: Yb(ClO₄)₃·18C6·3H₂O·2C₂H₅OH (I) and Yb(ClO₄)₃ 18C6·3H₂O·C₂H₅OH.Both are incongruently soluble in EtOH.The influences of rare earth ions and salt anions on formation of complexes were discussed.The two solid complexes have been prepared, and their composihons and properties have been investigated by chemical analysis, IR, DTG and DSC.According to the DSC, the enthalpies of some steps during the decomposition have been obtained for complexes (Ⅲ)and (Ⅳ).     

羟乙基壳聚糖的合成及其与聚乳酸的相容性

本文以异丙醇为溶剂,碱化壳聚糖与2-氯乙醇反应制备了羟乙基壳聚糖,对产物的结构与性能进行了分析表征;然后以二甲基亚砜为溶剂,采用溶液共混法制备了一系列不同组成的壳聚糖/聚乳酸和羟乙基壳聚糖/聚乳酸复合膜,对两组分间的相容性进行了研究。结果表明,羟乙基化反应在-OH和-NH2上均有发生,壳聚糖单元糖环上的羟乙基取代度为2.46;改性后,壳聚糖结晶性能和起始热分解温度下降,溶解性能得到改善。复合膜的电镜结果显示,在壳聚糖/聚乳酸复合膜中,相分离现象显著存在,壳聚糖在聚乳酸基体中的分散不均匀,有团聚现象,随着壳聚糖含量增加,两组分间的相分离程度增大,团聚现象更为严重,当壳聚糖含量达到50%时,已难以制备完整的复合膜;与之相反,羟乙基壳聚糖/聚乳酸复合膜中两种组分之间的相容性有所改善,相分离现象不明显,并且,当羟乙基壳聚糖含量从10%增加到50%,复合膜中两种组分之间的相容性变化不大。     

掺钇(Ba,Sr,Ca)TiO_3纳米粉体及细晶陶瓷的制备与性能

采用sol-gel法制备了Y3+掺杂Ba0.90Sr0.08Ca0.02TiO3(BSCT)纳米粉体及细晶陶瓷。通过TG-DTG、XRD、SEM和TEM对样品结构及形貌进行了表征,并测试了陶瓷的介电性能。研究表明,Y3+掺杂BSCT纳米粉体主要为立方相BaTiO3,烧结后陶瓷晶粒尺寸在0.68~2.24μm可控,Y3+掺杂可以抑制陶瓷晶粒的生长,使陶瓷的tC向低温方向移动。随Y3+掺杂量的增大,陶瓷的介电温谱εr-t趋于平缓,当x(Y3+)为7.0%时,陶瓷的室温εr大幅度提高到9 176。     

光散射检测微粒直径分布的实验装置的研制

论述光散射检测微粒直径分布的实验装置的原理及其设计,并给出装置的实验结果。     

限流用BaTiO3系PTC陶瓷的制备及影响因素

介绍了以钛酸四丁酯和自制高纯醋酸钡为主要原料,采用溶胶–凝胶一步法(sol-gel)制备限流用BaTiO3系PTC陶瓷材料的工艺路线,用正交实验法研究了Ti/Ba,Pb,Ca,Y,Mn等组分因素对PTC陶瓷材料性能的影响。优化确定了PTC陶瓷材料的较佳组成。在基方固溶体化学组成,原材料选择和复合添加物的改性,特别是烧结工艺等方面做了细致的工作。最终获得了居里温度(tC)100℃,室温电阻率(r25) ≤20 ·cm,升阻比(Rmax / Rmin)>105,温度系数(aR)≥15% /℃,耐电压(Vb)≥190 V·mm1的PTC陶瓷材料。     

X7R型BaTiO3基复相陶瓷的制备和表征

本文使用ZBSO纳米复合物作为助烧剂,利用溶胶-凝胶法制备了钛酸钡(高温组元,记为BT)和Nb、Co、Nd掺杂钛酸钡基(低温组元,记为BTCNC)复相陶瓷。研究了高低温组元比例对陶瓷相组成,微观结构和介电性能的影响。实验结果表明,当高低元配比为0.83BT~0.17BTNCN时,加入0.25 wt%的助烧剂,所得复相陶瓷在1 200℃烧结6h后,其介电性能满足X7R标准,最大容温变化率小于13%。     

PTCR纳米陶瓷粉及其烧结体的制备

The PTCR(positive temperature coefficient of resistance) nanosized ceramic powder was prepared by Sol-Gel process and characterized by XRD, DSC, SEM and BET techniques. The results showed that the nanopowder has an average crystallite size of 35nm with sphere-shaped, whose specific surface area is 27.80m²·g^-1 and the crystal structure is abnormal cubical perovskite phase at room temperature. In addition, the nanopowder was pressed into pellets and then sintered according to improved technique which was built based on the data of thermal analysis of the PTCR green-compact to yield PTCR ceramic materials with peculiar microstructure and higher properties, which has a resistivity at room temperature of ～20Ω·cm, a temperature coefficient of resistivity of ～19%·℃^-1, a withstand voltage intensity of >160V·mm^-1 and a resistivity jump of >10⁵.