However, compared to spherical titanate dioxide, sodium titanate nanotube gave better clay flocculation at lower dosage as they were applied together with CPAM.
与球状纳米二氧化钛相比,钛酸钠纳米管的微粒桥联作用使其在较低的用量下获得对高岭土的最大絮聚作用。
It was found that the sodium titanate nanotube alone only caused a weak clay flocculation however a strong clay flocculation was induced as it combined with CPAM.
结果表明,钛酸钠纳米管自身对高岭土悬浮液仅有微弱的絮凝作用,但与CPAM联合使用时,可引起高岭土的显著絮聚。
In general, the clay suspension is most accessible to flocculation.
总体上,瓷土胶体悬浮液最易絮凝。
应用推荐