方法采用固体分散载体和阻滞性高分子材料,使用固体分散与球晶制粒相结合的技术制备水飞蓟宾缓释微球。
Methods Sustained-release silybin microspheres were prepared by the spherical crystallization technique with solid-dispersing and release-retarding polymers.
结果表明超声波能促进镍基催化剂活性,使镍微晶(111)晶面间距增大1.5%、并保持高分散态。
The results demonstrated that employment of ultrasonic wave has benefit on the maintenance of catalyst activity. The interspace of nickel (111) crystal face increases its distance at 1.5%.
方法将羧甲基淀粉钠、微晶纤微素按一定比例混合,作为片剂基本处方,以分散片的外观、崩解时限、体外溶出度及混悬性为指标进行处方筛选。
METHOD s Mixing the CMSNa and MCC in certain proportion as the basic formulation of the tablets, the appearance, disintegration, dissolution and the suspensibility were investigated.
应用推荐