通过并流中和法对T-Zn Ow进行氧化硅包覆改性,改善了与有机高分子材料的相容性。利用红外光谱、X射线衍射、扫描电子显微镜、激光粒度分析等手段对包覆后的T-Zn Ow进行了表征,探讨了p H值、陈化时间、温度以及SiO_2包覆量对包覆效果的影响。结果表明:晶须表面成功包覆了非晶态硅氧化合物;包膜后的T-Zn Ow粒径减小,分散性能大幅度提高;实现均匀完整包覆的最佳工艺条件为:包膜p H=9~10,陈化时间5 h,反应温度90℃,SiO_2包覆量10%(质量分数)。 By co-current and neutralization of T-Zn Ow silicon oxide coating modified to improve the compatibility with organic polymer materials. The coated T-Zn Ow was characterized by infrared spectroscopy, X-ray diffraction, scanning electron microscopy and laser particle size analysis. The effects of p H value, aging time, temperature and SiO 2 coating amount on the coating effect Impact. The results show that the surface of the whiskers is successfully coated with amorphous silicon compounds; the T-Zn Ow particle size after coating is reduced and the dispersion performance is greatly improved; the optimum process conditions for uniform and complete coating are as follows: p H = 9 ~ 10, aging time 5 h, reaction temperature 90 ℃, SiO 2 coating amount 10% (mass fraction).