异丙醇铝添加量对FeNiMo@Al_(2)O_(3)软磁复合材料微结构和磁性能的影响

采用溶胶-凝胶法在FeNiMo磁粉表面包覆一层Al_(2)O_(3)绝缘层,通过调控异丙醇铝添加量实现Al_(2)O_(3)绝缘层包覆厚度的控制。扫描电子显微镜和能谱分析表明Al_(2)O_(3)绝缘包覆层的厚度随着异丙醇铝添加量的增加而增大,当异丙醇铝添加量为5 g时,Al_(2)O_(3)绝缘包覆层表面最为均匀完整。磁性能分析表明,FeNiMo@Al_(2)O_(3)软磁复合材料的有效磁导率随着频率的增高而下降,且Al_(2)O_(3)绝缘层越厚起始磁导率越低。交流测量仪测得的损耗表明FeNiMo@Al_(2)O_(3)软磁复合材料的损耗随着绝缘包覆层的厚度增大而降低。

盐析协同絮凝法去除及回收退浆废水中的PVA

采用盐析与絮凝相结合的方法去除退浆废水中的PVA并加以回收,考察了硫酸铝和PAM两种絮凝剂,结果显示,硫酸铝的效果优于PAM。当水中PVA质量浓度为3.1 g/L时,各组分合适的投加量为:硼砂1.0 g/L、硫酸钠10 g/L、硫酸铝0.8g/L,此时PVA的去除率可达80%以上,回收的PVA可再利用。该法扩大了传统盐析法的适用范围,同时提高了回收效率。

SO_(2)选择性加氢制硫催化剂研究

目的解决硫磺回收装置SO_(2)选择性加氢工艺催化剂配套及传统活性氧化铝载体氧化铝含量低和钠含量高的问题。方法选择异丙醇铝为原料,利用醇铝法在实验室制备了拟薄水铝石粉体,通过挤条成型制备了活性氧化铝载体,并负载活性金属制成三叶草型SO_(2)选择性加氢制硫催化剂。结果催化剂堆积密度0.55~0.65 g/mL,比表面积≥250 m^(2)/g,孔容≥0.4 mL/g,氧化铝质量分数≥95%,氧化钠质量分数≤100×10^(-6),该催化剂在H_(2)S/SO_(2)体积比为20、H_(2)体积分数为2%、温度为200℃的条件下,催化剂的SO_(2)加氢转化率为95.13%,SO_(2)转化为元素硫的选择性为91.22%。结论催化剂具备良好的活性,可以替代进口催化剂应用于SO_(2)选择性加氢工艺硫磺回收装置。

Performance Improvement of Polyvinyl Formal Based Gel Polymer Electrolyte for Lithium-Ion Batteries by Coating Al2O3

Al2O3/PVFM/Al2O3 trilayer membranes are prepared by means of simple coating of PVA-Al2O3 solution onto both sides of PVFM thin membranes, which is prepared via phase inversion method. The characteristics of the trilayer membranes and gel polymer electrolytes are investigated using FESEM, tensile testing apparatus, thermal shrinkage test, EIS and charge-discharge test. When inorganic Al2O3 particles are used to coat the PVFM membrane, drawbacks associated with gel-type membranes, namely, poor mechanical strength and thermal stability are greatly improved. Lithium ion cell with the Al2O3/PVFM/Al2O3 based GPE matched with LiFePO4 shows excellent electrochemical performance.