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研究了表面活性剂(AES、NINOL)与无机盐(NaCl)复合溶胶体系的粘度-浓度关系.结果表明,纯AES溶液的粘度与浓度成指数关系,可用BalRichmond公式描述,是典型的牛顿型流体.对于AES、NINOL和NaCl构成的复合溶胶体系,在NaCl和NINOL浓度较低时,此体系仍可看作牛顿型流体;当二者浓度增大时,则对溶胶体系的流变性产生协同作用,流变性比较复杂.
The relationship between viscosity and concentration of surfactant (AES, NINOL) and inorganic salt (NaCl) composite sol system was studied. The results show that the pure AES solution viscosity and concentration of an exponential relationship, available Bal-Richmond formula described, is a typical Newtonian fluid. For the composite sol system composed of AES, NINOL and NaCl, the system can still be regarded as a Newtonian fluid when the concentration of NaCl and NINOL is low. When the concentrations of both are increased, synergistic effects on the rheological properties of the sol system are obtained. Rheology is more complicated.